diff --git a/Source/RSHWNetwork/RSHWNetwork.Build.cs b/Source/RSHWNetwork/RSHWNetwork.Build.cs index b505f08..62a216e 100644 --- a/Source/RSHWNetwork/RSHWNetwork.Build.cs +++ b/Source/RSHWNetwork/RSHWNetwork.Build.cs @@ -40,6 +40,7 @@ public class RSHWNetwork : ModuleRules "SlateCore", "Networking", "Sockets", + "kcp", // ... add private dependencies that you statically link with here ... } ); diff --git a/Source/ThirdParty/kcp/LICENSE b/Source/ThirdParty/kcp/LICENSE new file mode 100644 index 0000000..4f9f28f --- /dev/null +++ b/Source/ThirdParty/kcp/LICENSE @@ -0,0 +1,21 @@ +MIT License + +Copyright (c) 2017 Lin Wei (skywind3000 at gmail.com) + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. \ No newline at end of file diff --git a/Source/ThirdParty/kcp/Private/ikcp.c b/Source/ThirdParty/kcp/Private/ikcp.c new file mode 100644 index 0000000..56ca6be --- /dev/null +++ b/Source/ThirdParty/kcp/Private/ikcp.c @@ -0,0 +1,1299 @@ +//===================================================================== +// +// KCP - A Better ARQ Protocol Implementation +// skywind3000 (at) gmail.com, 2010-2011 +// +// Features: +// + Average RTT reduce 30% - 40% vs traditional ARQ like tcp. +// + Maximum RTT reduce three times vs tcp. +// + Lightweight, distributed as a single source file. +// +//===================================================================== +#include "ikcp.h" + +#include +#include +#include +#include +#include + + + +//===================================================================== +// KCP BASIC +//===================================================================== +const IUINT32 IKCP_RTO_NDL = 30; // no delay min rto +const IUINT32 IKCP_RTO_MIN = 100; // normal min rto +const IUINT32 IKCP_RTO_DEF = 200; +const IUINT32 IKCP_RTO_MAX = 60000; +const IUINT32 IKCP_CMD_PUSH = 81; // cmd: push data +const IUINT32 IKCP_CMD_ACK = 82; // cmd: ack +const IUINT32 IKCP_CMD_WASK = 83; // cmd: window probe (ask) +const IUINT32 IKCP_CMD_WINS = 84; // cmd: window size (tell) +const IUINT32 IKCP_ASK_SEND = 1; // need to send IKCP_CMD_WASK +const IUINT32 IKCP_ASK_TELL = 2; // need to send IKCP_CMD_WINS +const IUINT32 IKCP_WND_SND = 32; +const IUINT32 IKCP_WND_RCV = 128; // must >= max fragment size +const IUINT32 IKCP_MTU_DEF = 1400; +const IUINT32 IKCP_ACK_FAST = 3; +const IUINT32 IKCP_INTERVAL = 100; +const IUINT32 IKCP_OVERHEAD = 24; +const IUINT32 IKCP_DEADLINK = 20; +const IUINT32 IKCP_THRESH_INIT = 2; +const IUINT32 IKCP_THRESH_MIN = 2; +const IUINT32 IKCP_PROBE_INIT = 7000; // 7 secs to probe window size +const IUINT32 IKCP_PROBE_LIMIT = 120000; // up to 120 secs to probe window +const IUINT32 IKCP_FASTACK_LIMIT = 5; // max times to trigger fastack + + +//--------------------------------------------------------------------- +// encode / decode +//--------------------------------------------------------------------- + +/* encode 8 bits unsigned int */ +static inline char *ikcp_encode8u(char *p, unsigned char c) +{ + *(unsigned char*)p++ = c; + return p; +} + +/* decode 8 bits unsigned int */ +static inline const char *ikcp_decode8u(const char *p, unsigned char *c) +{ + *c = *(unsigned char*)p++; + return p; +} + +/* encode 16 bits unsigned int (lsb) */ +static inline char *ikcp_encode16u(char *p, unsigned short w) +{ +#if IWORDS_BIG_ENDIAN || IWORDS_MUST_ALIGN + *(unsigned char*)(p + 0) = (w & 255); + *(unsigned char*)(p + 1) = (w >> 8); +#else + memcpy(p, &w, 2); +#endif + p += 2; + return p; +} + +/* decode 16 bits unsigned int (lsb) */ +static inline const char *ikcp_decode16u(const char *p, unsigned short *w) +{ +#if IWORDS_BIG_ENDIAN || IWORDS_MUST_ALIGN + *w = *(const unsigned char*)(p + 1); + *w = *(const unsigned char*)(p + 0) + (*w << 8); +#else + memcpy(w, p, 2); +#endif + p += 2; + return p; +} + +/* encode 32 bits unsigned int (lsb) */ +static inline char *ikcp_encode32u(char *p, IUINT32 l) +{ +#if IWORDS_BIG_ENDIAN || IWORDS_MUST_ALIGN + *(unsigned char*)(p + 0) = (unsigned char)((l >> 0) & 0xff); + *(unsigned char*)(p + 1) = (unsigned char)((l >> 8) & 0xff); + *(unsigned char*)(p + 2) = (unsigned char)((l >> 16) & 0xff); + *(unsigned char*)(p + 3) = (unsigned char)((l >> 24) & 0xff); +#else + memcpy(p, &l, 4); +#endif + p += 4; + return p; +} + +/* decode 32 bits unsigned int (lsb) */ +static inline const char *ikcp_decode32u(const char *p, IUINT32 *l) +{ +#if IWORDS_BIG_ENDIAN || IWORDS_MUST_ALIGN + *l = *(const unsigned char*)(p + 3); + *l = *(const unsigned char*)(p + 2) + (*l << 8); + *l = *(const unsigned char*)(p + 1) + (*l << 8); + *l = *(const unsigned char*)(p + 0) + (*l << 8); +#else + memcpy(l, p, 4); +#endif + p += 4; + return p; +} + +static inline IUINT32 _imin_(IUINT32 a, IUINT32 b) { + return a <= b ? a : b; +} + +static inline IUINT32 _imax_(IUINT32 a, IUINT32 b) { + return a >= b ? a : b; +} + +static inline IUINT32 _ibound_(IUINT32 lower, IUINT32 middle, IUINT32 upper) +{ + return _imin_(_imax_(lower, middle), upper); +} + +static inline long _itimediff(IUINT32 later, IUINT32 earlier) +{ + return ((IINT32)(later - earlier)); +} + +//--------------------------------------------------------------------- +// manage segment +//--------------------------------------------------------------------- +typedef struct IKCPSEG IKCPSEG; + +static void* (*ikcp_malloc_hook)(size_t) = NULL; +static void (*ikcp_free_hook)(void *) = NULL; + +// internal malloc +static void* ikcp_malloc(size_t size) { + if (ikcp_malloc_hook) + return ikcp_malloc_hook(size); + return malloc(size); +} + +// internal free +static void ikcp_free(void *ptr) { + if (ikcp_free_hook) { + ikcp_free_hook(ptr); + } else { + free(ptr); + } +} + +// redefine allocator +void ikcp_allocator(void* (*new_malloc)(size_t), void (*new_free)(void*)) +{ + ikcp_malloc_hook = new_malloc; + ikcp_free_hook = new_free; +} + +// allocate a new kcp segment +static IKCPSEG* ikcp_segment_new(ikcpcb *kcp, int size) +{ + return (IKCPSEG*)ikcp_malloc(sizeof(IKCPSEG) + size); +} + +// delete a segment +static void ikcp_segment_delete(ikcpcb *kcp, IKCPSEG *seg) +{ + ikcp_free(seg); +} + +// write log +void ikcp_log(ikcpcb *kcp, int mask, const char *fmt, ...) +{ + char buffer[1024]; + va_list argptr; + if ((mask & kcp->logmask) == 0 || kcp->writelog == 0) return; + va_start(argptr, fmt); + vsprintf(buffer, fmt, argptr); + va_end(argptr); + kcp->writelog(buffer, kcp, kcp->user); +} + +// check log mask +static int ikcp_canlog(const ikcpcb *kcp, int mask) +{ + if ((mask & kcp->logmask) == 0 || kcp->writelog == NULL) return 0; + return 1; +} + +// output segment +static int ikcp_output(ikcpcb *kcp, const void *data, int size) +{ + assert(kcp); + assert(kcp->output); + if (ikcp_canlog(kcp, IKCP_LOG_OUTPUT)) { + ikcp_log(kcp, IKCP_LOG_OUTPUT, "[RO] %ld bytes", (long)size); + } + if (size == 0) return 0; + return kcp->output((const char*)data, size, kcp, kcp->user); +} + +// output queue +void ikcp_qprint(const char *name, const struct IQUEUEHEAD *head) +{ +#if 0 + const struct IQUEUEHEAD *p; + printf("<%s>: [", name); + for (p = head->next; p != head; p = p->next) { + const IKCPSEG *seg = iqueue_entry(p, const IKCPSEG, node); + printf("(%lu %d)", (unsigned long)seg->sn, (int)(seg->ts % 10000)); + if (p->next != head) printf(","); + } + printf("]\n"); +#endif +} + + +//--------------------------------------------------------------------- +// create a new kcpcb +//--------------------------------------------------------------------- +ikcpcb* ikcp_create(IUINT32 conv, void *user) +{ + ikcpcb *kcp = (ikcpcb*)ikcp_malloc(sizeof(struct IKCPCB)); + if (kcp == NULL) return NULL; + kcp->conv = conv; + kcp->user = user; + kcp->snd_una = 0; + kcp->snd_nxt = 0; + kcp->rcv_nxt = 0; + kcp->ts_recent = 0; + kcp->ts_lastack = 0; + kcp->ts_probe = 0; + kcp->probe_wait = 0; + kcp->snd_wnd = IKCP_WND_SND; + kcp->rcv_wnd = IKCP_WND_RCV; + kcp->rmt_wnd = IKCP_WND_RCV; + kcp->cwnd = 0; + kcp->incr = 0; + kcp->probe = 0; + kcp->mtu = IKCP_MTU_DEF; + kcp->mss = kcp->mtu - IKCP_OVERHEAD; + kcp->stream = 0; + + kcp->buffer = (char*)ikcp_malloc((kcp->mtu + IKCP_OVERHEAD) * 3); + if (kcp->buffer == NULL) { + ikcp_free(kcp); + return NULL; + } + + iqueue_init(&kcp->snd_queue); + iqueue_init(&kcp->rcv_queue); + iqueue_init(&kcp->snd_buf); + iqueue_init(&kcp->rcv_buf); + kcp->nrcv_buf = 0; + kcp->nsnd_buf = 0; + kcp->nrcv_que = 0; + kcp->nsnd_que = 0; + kcp->state = 0; + kcp->acklist = NULL; + kcp->ackblock = 0; + kcp->ackcount = 0; + kcp->rx_srtt = 0; + kcp->rx_rttval = 0; + kcp->rx_rto = IKCP_RTO_DEF; + kcp->rx_minrto = IKCP_RTO_MIN; + kcp->current = 0; + kcp->interval = IKCP_INTERVAL; + kcp->ts_flush = IKCP_INTERVAL; + kcp->nodelay = 0; + kcp->updated = 0; + kcp->logmask = 0; + kcp->ssthresh = IKCP_THRESH_INIT; + kcp->fastresend = 0; + kcp->fastlimit = IKCP_FASTACK_LIMIT; + kcp->nocwnd = 0; + kcp->xmit = 0; + kcp->dead_link = IKCP_DEADLINK; + kcp->output = NULL; + kcp->writelog = NULL; + + return kcp; +} + + +//--------------------------------------------------------------------- +// release a new kcpcb +//--------------------------------------------------------------------- +void ikcp_release(ikcpcb *kcp) +{ + assert(kcp); + if (kcp) { + IKCPSEG *seg; + while (!iqueue_is_empty(&kcp->snd_buf)) { + seg = iqueue_entry(kcp->snd_buf.next, IKCPSEG, node); + iqueue_del(&seg->node); + ikcp_segment_delete(kcp, seg); + } + while (!iqueue_is_empty(&kcp->rcv_buf)) { + seg = iqueue_entry(kcp->rcv_buf.next, IKCPSEG, node); + iqueue_del(&seg->node); + ikcp_segment_delete(kcp, seg); + } + while (!iqueue_is_empty(&kcp->snd_queue)) { + seg = iqueue_entry(kcp->snd_queue.next, IKCPSEG, node); + iqueue_del(&seg->node); + ikcp_segment_delete(kcp, seg); + } + while (!iqueue_is_empty(&kcp->rcv_queue)) { + seg = iqueue_entry(kcp->rcv_queue.next, IKCPSEG, node); + iqueue_del(&seg->node); + ikcp_segment_delete(kcp, seg); + } + if (kcp->buffer) { + ikcp_free(kcp->buffer); + } + if (kcp->acklist) { + ikcp_free(kcp->acklist); + } + + kcp->nrcv_buf = 0; + kcp->nsnd_buf = 0; + kcp->nrcv_que = 0; + kcp->nsnd_que = 0; + kcp->ackcount = 0; + kcp->buffer = NULL; + kcp->acklist = NULL; + ikcp_free(kcp); + } +} + + +//--------------------------------------------------------------------- +// set output callback, which will be invoked by kcp +//--------------------------------------------------------------------- +void ikcp_setoutput(ikcpcb *kcp, int (*output)(const char *buf, int len, + ikcpcb *kcp, void *user)) +{ + kcp->output = output; +} + + +//--------------------------------------------------------------------- +// user/upper level recv: returns size, returns below zero for EAGAIN +//--------------------------------------------------------------------- +int ikcp_recv(ikcpcb *kcp, char *buffer, int len) +{ + struct IQUEUEHEAD *p; + int ispeek = (len < 0)? 1 : 0; + int peeksize; + int recover = 0; + IKCPSEG *seg; + assert(kcp); + + if (iqueue_is_empty(&kcp->rcv_queue)) + return -1; + + if (len < 0) len = -len; + + peeksize = ikcp_peeksize(kcp); + + if (peeksize < 0) + return -2; + + if (peeksize > len) + return -3; + + if (kcp->nrcv_que >= kcp->rcv_wnd) + recover = 1; + + // merge fragment + for (len = 0, p = kcp->rcv_queue.next; p != &kcp->rcv_queue; ) { + int fragment; + seg = iqueue_entry(p, IKCPSEG, node); + p = p->next; + + if (buffer) { + memcpy(buffer, seg->data, seg->len); + buffer += seg->len; + } + + len += seg->len; + fragment = seg->frg; + + if (ikcp_canlog(kcp, IKCP_LOG_RECV)) { + ikcp_log(kcp, IKCP_LOG_RECV, "recv sn=%lu", (unsigned long)seg->sn); + } + + if (ispeek == 0) { + iqueue_del(&seg->node); + ikcp_segment_delete(kcp, seg); + kcp->nrcv_que--; + } + + if (fragment == 0) + break; + } + + assert(len == peeksize); + + // move available data from rcv_buf -> rcv_queue + while (! iqueue_is_empty(&kcp->rcv_buf)) { + seg = iqueue_entry(kcp->rcv_buf.next, IKCPSEG, node); + if (seg->sn == kcp->rcv_nxt && kcp->nrcv_que < kcp->rcv_wnd) { + iqueue_del(&seg->node); + kcp->nrcv_buf--; + iqueue_add_tail(&seg->node, &kcp->rcv_queue); + kcp->nrcv_que++; + kcp->rcv_nxt++; + } else { + break; + } + } + + // fast recover + if (kcp->nrcv_que < kcp->rcv_wnd && recover) { + // ready to send back IKCP_CMD_WINS in ikcp_flush + // tell remote my window size + kcp->probe |= IKCP_ASK_TELL; + } + + return len; +} + + +//--------------------------------------------------------------------- +// peek data size +//--------------------------------------------------------------------- +int ikcp_peeksize(const ikcpcb *kcp) +{ + struct IQUEUEHEAD *p; + IKCPSEG *seg; + int length = 0; + + assert(kcp); + + if (iqueue_is_empty(&kcp->rcv_queue)) return -1; + + seg = iqueue_entry(kcp->rcv_queue.next, IKCPSEG, node); + if (seg->frg == 0) return seg->len; + + if (kcp->nrcv_que < seg->frg + 1) return -1; + + for (p = kcp->rcv_queue.next; p != &kcp->rcv_queue; p = p->next) { + seg = iqueue_entry(p, IKCPSEG, node); + length += seg->len; + if (seg->frg == 0) break; + } + + return length; +} + + +//--------------------------------------------------------------------- +// user/upper level send, returns below zero for error +//--------------------------------------------------------------------- +int ikcp_send(ikcpcb *kcp, const char *buffer, int len) +{ + IKCPSEG *seg; + int count, i; + + assert(kcp->mss > 0); + if (len < 0) return -1; + + // append to previous segment in streaming mode (if possible) + if (kcp->stream != 0) { + if (!iqueue_is_empty(&kcp->snd_queue)) { + IKCPSEG *old = iqueue_entry(kcp->snd_queue.prev, IKCPSEG, node); + if (old->len < kcp->mss) { + int capacity = kcp->mss - old->len; + int extend = (len < capacity)? len : capacity; + seg = ikcp_segment_new(kcp, old->len + extend); + assert(seg); + if (seg == NULL) { + return -2; + } + iqueue_add_tail(&seg->node, &kcp->snd_queue); + memcpy(seg->data, old->data, old->len); + if (buffer) { + memcpy(seg->data + old->len, buffer, extend); + buffer += extend; + } + seg->len = old->len + extend; + seg->frg = 0; + len -= extend; + iqueue_del_init(&old->node); + ikcp_segment_delete(kcp, old); + } + } + if (len <= 0) { + return 0; + } + } + + if (len <= (int)kcp->mss) count = 1; + else count = (len + kcp->mss - 1) / kcp->mss; + + if (count >= (int)IKCP_WND_RCV) return -2; + + if (count == 0) count = 1; + + // fragment + for (i = 0; i < count; i++) { + int size = len > (int)kcp->mss ? (int)kcp->mss : len; + seg = ikcp_segment_new(kcp, size); + assert(seg); + if (seg == NULL) { + return -2; + } + if (buffer && len > 0) { + memcpy(seg->data, buffer, size); + } + seg->len = size; + seg->frg = (kcp->stream == 0)? (count - i - 1) : 0; + iqueue_init(&seg->node); + iqueue_add_tail(&seg->node, &kcp->snd_queue); + kcp->nsnd_que++; + if (buffer) { + buffer += size; + } + len -= size; + } + + return 0; +} + + +//--------------------------------------------------------------------- +// parse ack +//--------------------------------------------------------------------- +static void ikcp_update_ack(ikcpcb *kcp, IINT32 rtt) +{ + IINT32 rto = 0; + if (kcp->rx_srtt == 0) { + kcp->rx_srtt = rtt; + kcp->rx_rttval = rtt / 2; + } else { + long delta = rtt - kcp->rx_srtt; + if (delta < 0) delta = -delta; + kcp->rx_rttval = (3 * kcp->rx_rttval + delta) / 4; + kcp->rx_srtt = (7 * kcp->rx_srtt + rtt) / 8; + if (kcp->rx_srtt < 1) kcp->rx_srtt = 1; + } + rto = kcp->rx_srtt + _imax_(kcp->interval, 4 * kcp->rx_rttval); + kcp->rx_rto = _ibound_(kcp->rx_minrto, rto, IKCP_RTO_MAX); +} + +static void ikcp_shrink_buf(ikcpcb *kcp) +{ + struct IQUEUEHEAD *p = kcp->snd_buf.next; + if (p != &kcp->snd_buf) { + IKCPSEG *seg = iqueue_entry(p, IKCPSEG, node); + kcp->snd_una = seg->sn; + } else { + kcp->snd_una = kcp->snd_nxt; + } +} + +static void ikcp_parse_ack(ikcpcb *kcp, IUINT32 sn) +{ + struct IQUEUEHEAD *p, *next; + + if (_itimediff(sn, kcp->snd_una) < 0 || _itimediff(sn, kcp->snd_nxt) >= 0) + return; + + for (p = kcp->snd_buf.next; p != &kcp->snd_buf; p = next) { + IKCPSEG *seg = iqueue_entry(p, IKCPSEG, node); + next = p->next; + if (sn == seg->sn) { + iqueue_del(p); + ikcp_segment_delete(kcp, seg); + kcp->nsnd_buf--; + break; + } + if (_itimediff(sn, seg->sn) < 0) { + break; + } + } +} + +static void ikcp_parse_una(ikcpcb *kcp, IUINT32 una) +{ + struct IQUEUEHEAD *p, *next; + for (p = kcp->snd_buf.next; p != &kcp->snd_buf; p = next) { + IKCPSEG *seg = iqueue_entry(p, IKCPSEG, node); + next = p->next; + if (_itimediff(una, seg->sn) > 0) { + iqueue_del(p); + ikcp_segment_delete(kcp, seg); + kcp->nsnd_buf--; + } else { + break; + } + } +} + +static void ikcp_parse_fastack(ikcpcb *kcp, IUINT32 sn, IUINT32 ts) +{ + struct IQUEUEHEAD *p, *next; + + if (_itimediff(sn, kcp->snd_una) < 0 || _itimediff(sn, kcp->snd_nxt) >= 0) + return; + + for (p = kcp->snd_buf.next; p != &kcp->snd_buf; p = next) { + IKCPSEG *seg = iqueue_entry(p, IKCPSEG, node); + next = p->next; + if (_itimediff(sn, seg->sn) < 0) { + break; + } + else if (sn != seg->sn) { + #ifndef IKCP_FASTACK_CONSERVE + seg->fastack++; + #else + if (_itimediff(ts, seg->ts) >= 0) + seg->fastack++; + #endif + } + } +} + + +//--------------------------------------------------------------------- +// ack append +//--------------------------------------------------------------------- +static void ikcp_ack_push(ikcpcb *kcp, IUINT32 sn, IUINT32 ts) +{ + size_t newsize = kcp->ackcount + 1; + IUINT32 *ptr; + + if (newsize > kcp->ackblock) { + IUINT32 *acklist; + size_t newblock; + + for (newblock = 8; newblock < newsize; newblock <<= 1); + acklist = (IUINT32*)ikcp_malloc(newblock * sizeof(IUINT32) * 2); + + if (acklist == NULL) { + assert(acklist != NULL); + abort(); + } + + if (kcp->acklist != NULL) { + size_t x; + for (x = 0; x < kcp->ackcount; x++) { + acklist[x * 2 + 0] = kcp->acklist[x * 2 + 0]; + acklist[x * 2 + 1] = kcp->acklist[x * 2 + 1]; + } + ikcp_free(kcp->acklist); + } + + kcp->acklist = acklist; + kcp->ackblock = newblock; + } + + ptr = &kcp->acklist[kcp->ackcount * 2]; + ptr[0] = sn; + ptr[1] = ts; + kcp->ackcount++; +} + +static void ikcp_ack_get(const ikcpcb *kcp, int p, IUINT32 *sn, IUINT32 *ts) +{ + if (sn) sn[0] = kcp->acklist[p * 2 + 0]; + if (ts) ts[0] = kcp->acklist[p * 2 + 1]; +} + + +//--------------------------------------------------------------------- +// parse data +//--------------------------------------------------------------------- +void ikcp_parse_data(ikcpcb *kcp, IKCPSEG *newseg) +{ + struct IQUEUEHEAD *p, *prev; + IUINT32 sn = newseg->sn; + int repeat = 0; + + if (_itimediff(sn, kcp->rcv_nxt + kcp->rcv_wnd) >= 0 || + _itimediff(sn, kcp->rcv_nxt) < 0) { + ikcp_segment_delete(kcp, newseg); + return; + } + + for (p = kcp->rcv_buf.prev; p != &kcp->rcv_buf; p = prev) { + IKCPSEG *seg = iqueue_entry(p, IKCPSEG, node); + prev = p->prev; + if (seg->sn == sn) { + repeat = 1; + break; + } + if (_itimediff(sn, seg->sn) > 0) { + break; + } + } + + if (repeat == 0) { + iqueue_init(&newseg->node); + iqueue_add(&newseg->node, p); + kcp->nrcv_buf++; + } else { + ikcp_segment_delete(kcp, newseg); + } + +#if 0 + ikcp_qprint("rcvbuf", &kcp->rcv_buf); + printf("rcv_nxt=%lu\n", kcp->rcv_nxt); +#endif + + // move available data from rcv_buf -> rcv_queue + while (! iqueue_is_empty(&kcp->rcv_buf)) { + IKCPSEG *seg = iqueue_entry(kcp->rcv_buf.next, IKCPSEG, node); + if (seg->sn == kcp->rcv_nxt && kcp->nrcv_que < kcp->rcv_wnd) { + iqueue_del(&seg->node); + kcp->nrcv_buf--; + iqueue_add_tail(&seg->node, &kcp->rcv_queue); + kcp->nrcv_que++; + kcp->rcv_nxt++; + } else { + break; + } + } + +#if 0 + ikcp_qprint("queue", &kcp->rcv_queue); + printf("rcv_nxt=%lu\n", kcp->rcv_nxt); +#endif + +#if 1 +// printf("snd(buf=%d, queue=%d)\n", kcp->nsnd_buf, kcp->nsnd_que); +// printf("rcv(buf=%d, queue=%d)\n", kcp->nrcv_buf, kcp->nrcv_que); +#endif +} + + +//--------------------------------------------------------------------- +// input data +//--------------------------------------------------------------------- +int ikcp_input(ikcpcb *kcp, const char *data, long size) +{ + IUINT32 prev_una = kcp->snd_una; + IUINT32 maxack = 0, latest_ts = 0; + int flag = 0; + + if (ikcp_canlog(kcp, IKCP_LOG_INPUT)) { + ikcp_log(kcp, IKCP_LOG_INPUT, "[RI] %d bytes", (int)size); + } + + if (data == NULL || (int)size < (int)IKCP_OVERHEAD) return -1; + + while (1) { + IUINT32 ts, sn, len, una, conv; + IUINT16 wnd; + IUINT8 cmd, frg; + IKCPSEG *seg; + + if (size < (int)IKCP_OVERHEAD) break; + + data = ikcp_decode32u(data, &conv); + if (conv != kcp->conv) return -1; + + data = ikcp_decode8u(data, &cmd); + data = ikcp_decode8u(data, &frg); + data = ikcp_decode16u(data, &wnd); + data = ikcp_decode32u(data, &ts); + data = ikcp_decode32u(data, &sn); + data = ikcp_decode32u(data, &una); + data = ikcp_decode32u(data, &len); + + size -= IKCP_OVERHEAD; + + if ((long)size < (long)len || (int)len < 0) return -2; + + if (cmd != IKCP_CMD_PUSH && cmd != IKCP_CMD_ACK && + cmd != IKCP_CMD_WASK && cmd != IKCP_CMD_WINS) + return -3; + + kcp->rmt_wnd = wnd; + ikcp_parse_una(kcp, una); + ikcp_shrink_buf(kcp); + + if (cmd == IKCP_CMD_ACK) { + if (_itimediff(kcp->current, ts) >= 0) { + ikcp_update_ack(kcp, _itimediff(kcp->current, ts)); + } + ikcp_parse_ack(kcp, sn); + ikcp_shrink_buf(kcp); + if (flag == 0) { + flag = 1; + maxack = sn; + latest_ts = ts; + } else { + if (_itimediff(sn, maxack) > 0) { + #ifndef IKCP_FASTACK_CONSERVE + maxack = sn; + latest_ts = ts; + #else + if (_itimediff(ts, latest_ts) > 0) { + maxack = sn; + latest_ts = ts; + } + #endif + } + } + if (ikcp_canlog(kcp, IKCP_LOG_IN_ACK)) { + ikcp_log(kcp, IKCP_LOG_IN_ACK, + "input ack: sn=%lu rtt=%ld rto=%ld", (unsigned long)sn, + (long)_itimediff(kcp->current, ts), + (long)kcp->rx_rto); + } + } + else if (cmd == IKCP_CMD_PUSH) { + if (ikcp_canlog(kcp, IKCP_LOG_IN_DATA)) { + ikcp_log(kcp, IKCP_LOG_IN_DATA, + "input psh: sn=%lu ts=%lu", (unsigned long)sn, (unsigned long)ts); + } + if (_itimediff(sn, kcp->rcv_nxt + kcp->rcv_wnd) < 0) { + ikcp_ack_push(kcp, sn, ts); + if (_itimediff(sn, kcp->rcv_nxt) >= 0) { + seg = ikcp_segment_new(kcp, len); + seg->conv = conv; + seg->cmd = cmd; + seg->frg = frg; + seg->wnd = wnd; + seg->ts = ts; + seg->sn = sn; + seg->una = una; + seg->len = len; + + if (len > 0) { + memcpy(seg->data, data, len); + } + + ikcp_parse_data(kcp, seg); + } + } + } + else if (cmd == IKCP_CMD_WASK) { + // ready to send back IKCP_CMD_WINS in ikcp_flush + // tell remote my window size + kcp->probe |= IKCP_ASK_TELL; + if (ikcp_canlog(kcp, IKCP_LOG_IN_PROBE)) { + ikcp_log(kcp, IKCP_LOG_IN_PROBE, "input probe"); + } + } + else if (cmd == IKCP_CMD_WINS) { + // do nothing + if (ikcp_canlog(kcp, IKCP_LOG_IN_WINS)) { + ikcp_log(kcp, IKCP_LOG_IN_WINS, + "input wins: %lu", (unsigned long)(wnd)); + } + } + else { + return -3; + } + + data += len; + size -= len; + } + + if (flag != 0) { + ikcp_parse_fastack(kcp, maxack, latest_ts); + } + + if (_itimediff(kcp->snd_una, prev_una) > 0) { + if (kcp->cwnd < kcp->rmt_wnd) { + IUINT32 mss = kcp->mss; + if (kcp->cwnd < kcp->ssthresh) { + kcp->cwnd++; + kcp->incr += mss; + } else { + if (kcp->incr < mss) kcp->incr = mss; + kcp->incr += (mss * mss) / kcp->incr + (mss / 16); + if ((kcp->cwnd + 1) * mss <= kcp->incr) { + #if 1 + kcp->cwnd = (kcp->incr + mss - 1) / ((mss > 0)? mss : 1); + #else + kcp->cwnd++; + #endif + } + } + if (kcp->cwnd > kcp->rmt_wnd) { + kcp->cwnd = kcp->rmt_wnd; + kcp->incr = kcp->rmt_wnd * mss; + } + } + } + + return 0; +} + + +//--------------------------------------------------------------------- +// ikcp_encode_seg +//--------------------------------------------------------------------- +static char *ikcp_encode_seg(char *ptr, const IKCPSEG *seg) +{ + ptr = ikcp_encode32u(ptr, seg->conv); + ptr = ikcp_encode8u(ptr, (IUINT8)seg->cmd); + ptr = ikcp_encode8u(ptr, (IUINT8)seg->frg); + ptr = ikcp_encode16u(ptr, (IUINT16)seg->wnd); + ptr = ikcp_encode32u(ptr, seg->ts); + ptr = ikcp_encode32u(ptr, seg->sn); + ptr = ikcp_encode32u(ptr, seg->una); + ptr = ikcp_encode32u(ptr, seg->len); + return ptr; +} + +static int ikcp_wnd_unused(const ikcpcb *kcp) +{ + if (kcp->nrcv_que < kcp->rcv_wnd) { + return kcp->rcv_wnd - kcp->nrcv_que; + } + return 0; +} + + +//--------------------------------------------------------------------- +// ikcp_flush +//--------------------------------------------------------------------- +void ikcp_flush(ikcpcb *kcp) +{ + IUINT32 current = kcp->current; + char *buffer = kcp->buffer; + char *ptr = buffer; + int count, size, i; + IUINT32 resent, cwnd; + IUINT32 rtomin; + struct IQUEUEHEAD *p; + int change = 0; + int lost = 0; + IKCPSEG seg; + + // 'ikcp_update' haven't been called. + if (kcp->updated == 0) return; + + seg.conv = kcp->conv; + seg.cmd = IKCP_CMD_ACK; + seg.frg = 0; + seg.wnd = ikcp_wnd_unused(kcp); + seg.una = kcp->rcv_nxt; + seg.len = 0; + seg.sn = 0; + seg.ts = 0; + + // flush acknowledges + count = kcp->ackcount; + for (i = 0; i < count; i++) { + size = (int)(ptr - buffer); + if (size + (int)IKCP_OVERHEAD > (int)kcp->mtu) { + ikcp_output(kcp, buffer, size); + ptr = buffer; + } + ikcp_ack_get(kcp, i, &seg.sn, &seg.ts); + ptr = ikcp_encode_seg(ptr, &seg); + } + + kcp->ackcount = 0; + + // probe window size (if remote window size equals zero) + if (kcp->rmt_wnd == 0) { + if (kcp->probe_wait == 0) { + kcp->probe_wait = IKCP_PROBE_INIT; + kcp->ts_probe = kcp->current + kcp->probe_wait; + } + else { + if (_itimediff(kcp->current, kcp->ts_probe) >= 0) { + if (kcp->probe_wait < IKCP_PROBE_INIT) + kcp->probe_wait = IKCP_PROBE_INIT; + kcp->probe_wait += kcp->probe_wait / 2; + if (kcp->probe_wait > IKCP_PROBE_LIMIT) + kcp->probe_wait = IKCP_PROBE_LIMIT; + kcp->ts_probe = kcp->current + kcp->probe_wait; + kcp->probe |= IKCP_ASK_SEND; + } + } + } else { + kcp->ts_probe = 0; + kcp->probe_wait = 0; + } + + // flush window probing commands + if (kcp->probe & IKCP_ASK_SEND) { + seg.cmd = IKCP_CMD_WASK; + size = (int)(ptr - buffer); + if (size + (int)IKCP_OVERHEAD > (int)kcp->mtu) { + ikcp_output(kcp, buffer, size); + ptr = buffer; + } + ptr = ikcp_encode_seg(ptr, &seg); + } + + // flush window probing commands + if (kcp->probe & IKCP_ASK_TELL) { + seg.cmd = IKCP_CMD_WINS; + size = (int)(ptr - buffer); + if (size + (int)IKCP_OVERHEAD > (int)kcp->mtu) { + ikcp_output(kcp, buffer, size); + ptr = buffer; + } + ptr = ikcp_encode_seg(ptr, &seg); + } + + kcp->probe = 0; + + // calculate window size + cwnd = _imin_(kcp->snd_wnd, kcp->rmt_wnd); + if (kcp->nocwnd == 0) cwnd = _imin_(kcp->cwnd, cwnd); + + // move data from snd_queue to snd_buf + while (_itimediff(kcp->snd_nxt, kcp->snd_una + cwnd) < 0) { + IKCPSEG *newseg; + if (iqueue_is_empty(&kcp->snd_queue)) break; + + newseg = iqueue_entry(kcp->snd_queue.next, IKCPSEG, node); + + iqueue_del(&newseg->node); + iqueue_add_tail(&newseg->node, &kcp->snd_buf); + kcp->nsnd_que--; + kcp->nsnd_buf++; + + newseg->conv = kcp->conv; + newseg->cmd = IKCP_CMD_PUSH; + newseg->wnd = seg.wnd; + newseg->ts = current; + newseg->sn = kcp->snd_nxt++; + newseg->una = kcp->rcv_nxt; + newseg->resendts = current; + newseg->rto = kcp->rx_rto; + newseg->fastack = 0; + newseg->xmit = 0; + } + + // calculate resent + resent = (kcp->fastresend > 0)? (IUINT32)kcp->fastresend : 0xffffffff; + rtomin = (kcp->nodelay == 0)? (kcp->rx_rto >> 3) : 0; + + // flush data segments + for (p = kcp->snd_buf.next; p != &kcp->snd_buf; p = p->next) { + IKCPSEG *segment = iqueue_entry(p, IKCPSEG, node); + int needsend = 0; + if (segment->xmit == 0) { + needsend = 1; + segment->xmit++; + segment->rto = kcp->rx_rto; + segment->resendts = current + segment->rto + rtomin; + } + else if (_itimediff(current, segment->resendts) >= 0) { + needsend = 1; + segment->xmit++; + kcp->xmit++; + if (kcp->nodelay == 0) { + segment->rto += _imax_(segment->rto, (IUINT32)kcp->rx_rto); + } else { + IINT32 step = (kcp->nodelay < 2)? + ((IINT32)(segment->rto)) : kcp->rx_rto; + segment->rto += step / 2; + } + segment->resendts = current + segment->rto; + lost = 1; + } + else if (segment->fastack >= resent) { + if ((int)segment->xmit <= kcp->fastlimit || + kcp->fastlimit <= 0) { + needsend = 1; + segment->xmit++; + segment->fastack = 0; + segment->resendts = current + segment->rto; + change++; + } + } + + if (needsend) { + int need; + segment->ts = current; + segment->wnd = seg.wnd; + segment->una = kcp->rcv_nxt; + + size = (int)(ptr - buffer); + need = IKCP_OVERHEAD + segment->len; + + if (size + need > (int)kcp->mtu) { + ikcp_output(kcp, buffer, size); + ptr = buffer; + } + + ptr = ikcp_encode_seg(ptr, segment); + + if (segment->len > 0) { + memcpy(ptr, segment->data, segment->len); + ptr += segment->len; + } + + if (segment->xmit >= kcp->dead_link) { + kcp->state = (IUINT32)-1; + } + } + } + + // flash remain segments + size = (int)(ptr - buffer); + if (size > 0) { + ikcp_output(kcp, buffer, size); + } + + // update ssthresh + if (change) { + IUINT32 inflight = kcp->snd_nxt - kcp->snd_una; + kcp->ssthresh = inflight / 2; + if (kcp->ssthresh < IKCP_THRESH_MIN) + kcp->ssthresh = IKCP_THRESH_MIN; + kcp->cwnd = kcp->ssthresh + resent; + kcp->incr = kcp->cwnd * kcp->mss; + } + + if (lost) { + kcp->ssthresh = cwnd / 2; + if (kcp->ssthresh < IKCP_THRESH_MIN) + kcp->ssthresh = IKCP_THRESH_MIN; + kcp->cwnd = 1; + kcp->incr = kcp->mss; + } + + if (kcp->cwnd < 1) { + kcp->cwnd = 1; + kcp->incr = kcp->mss; + } +} + + +//--------------------------------------------------------------------- +// update state (call it repeatedly, every 10ms-100ms), or you can ask +// ikcp_check when to call it again (without ikcp_input/_send calling). +// 'current' - current timestamp in millisec. +//--------------------------------------------------------------------- +void ikcp_update(ikcpcb *kcp, IUINT32 current) +{ + IINT32 slap; + + kcp->current = current; + + if (kcp->updated == 0) { + kcp->updated = 1; + kcp->ts_flush = kcp->current; + } + + slap = _itimediff(kcp->current, kcp->ts_flush); + + if (slap >= 10000 || slap < -10000) { + kcp->ts_flush = kcp->current; + slap = 0; + } + + if (slap >= 0) { + kcp->ts_flush += kcp->interval; + if (_itimediff(kcp->current, kcp->ts_flush) >= 0) { + kcp->ts_flush = kcp->current + kcp->interval; + } + ikcp_flush(kcp); + } +} + + +//--------------------------------------------------------------------- +// Determine when should you invoke ikcp_update: +// returns when you should invoke ikcp_update in millisec, if there +// is no ikcp_input/_send calling. you can call ikcp_update in that +// time, instead of call update repeatly. +// Important to reduce unnacessary ikcp_update invoking. use it to +// schedule ikcp_update (eg. implementing an epoll-like mechanism, +// or optimize ikcp_update when handling massive kcp connections) +//--------------------------------------------------------------------- +IUINT32 ikcp_check(const ikcpcb *kcp, IUINT32 current) +{ + IUINT32 ts_flush = kcp->ts_flush; + IINT32 tm_flush = 0x7fffffff; + IINT32 tm_packet = 0x7fffffff; + IUINT32 minimal = 0; + struct IQUEUEHEAD *p; + + if (kcp->updated == 0) { + return current; + } + + if (_itimediff(current, ts_flush) >= 10000 || + _itimediff(current, ts_flush) < -10000) { + ts_flush = current; + } + + if (_itimediff(current, ts_flush) >= 0) { + return current; + } + + tm_flush = _itimediff(ts_flush, current); + + for (p = kcp->snd_buf.next; p != &kcp->snd_buf; p = p->next) { + const IKCPSEG *seg = iqueue_entry(p, const IKCPSEG, node); + IINT32 diff = _itimediff(seg->resendts, current); + if (diff <= 0) { + return current; + } + if (diff < tm_packet) tm_packet = diff; + } + + minimal = (IUINT32)(tm_packet < tm_flush ? tm_packet : tm_flush); + if (minimal >= kcp->interval) minimal = kcp->interval; + + return current + minimal; +} + + + +int ikcp_setmtu(ikcpcb *kcp, int mtu) +{ + char *buffer; + if (mtu < 50 || mtu < (int)IKCP_OVERHEAD) + return -1; + buffer = (char*)ikcp_malloc((mtu + IKCP_OVERHEAD) * 3); + if (buffer == NULL) + return -2; + kcp->mtu = mtu; + kcp->mss = kcp->mtu - IKCP_OVERHEAD; + ikcp_free(kcp->buffer); + kcp->buffer = buffer; + return 0; +} + +int ikcp_interval(ikcpcb *kcp, int interval) +{ + if (interval > 5000) interval = 5000; + else if (interval < 10) interval = 10; + kcp->interval = interval; + return 0; +} + +int ikcp_nodelay(ikcpcb *kcp, int nodelay, int interval, int resend, int nc) +{ + if (nodelay >= 0) { + kcp->nodelay = nodelay; + if (nodelay) { + kcp->rx_minrto = IKCP_RTO_NDL; + } + else { + kcp->rx_minrto = IKCP_RTO_MIN; + } + } + if (interval >= 0) { + if (interval > 5000) interval = 5000; + else if (interval < 10) interval = 10; + kcp->interval = interval; + } + if (resend >= 0) { + kcp->fastresend = resend; + } + if (nc >= 0) { + kcp->nocwnd = nc; + } + return 0; +} + + +int ikcp_wndsize(ikcpcb *kcp, int sndwnd, int rcvwnd) +{ + if (kcp) { + if (sndwnd > 0) { + kcp->snd_wnd = sndwnd; + } + if (rcvwnd > 0) { // must >= max fragment size + kcp->rcv_wnd = _imax_(rcvwnd, IKCP_WND_RCV); + } + } + return 0; +} + +int ikcp_waitsnd(const ikcpcb *kcp) +{ + return kcp->nsnd_buf + kcp->nsnd_que; +} + + +// read conv +IUINT32 ikcp_getconv(const void *ptr) +{ + IUINT32 conv; + ikcp_decode32u((const char*)ptr, &conv); + return conv; +} + + diff --git a/Source/ThirdParty/kcp/Private/kcpModule.cpp b/Source/ThirdParty/kcp/Private/kcpModule.cpp new file mode 100644 index 0000000..b3581d9 --- /dev/null +++ b/Source/ThirdParty/kcp/Private/kcpModule.cpp @@ -0,0 +1,15 @@ +#include "CoreMinimal.h" +#include "Modules/ModuleManager.h" + +class KCP_API FkcpModule : public IModuleInterface +{ +public: + + // ~Begin IModuleInterface Interface + virtual void StartupModule() override { } + virtual void ShutdownModule() override { } + // ~End IModuleInterface Interface + +}; + +IMPLEMENT_MODULE(FkcpModule, kcp) diff --git a/Source/ThirdParty/kcp/Public/ikcp.h b/Source/ThirdParty/kcp/Public/ikcp.h new file mode 100644 index 0000000..b8c337f --- /dev/null +++ b/Source/ThirdParty/kcp/Public/ikcp.h @@ -0,0 +1,416 @@ +//===================================================================== +// +// KCP - A Better ARQ Protocol Implementation +// skywind3000 (at) gmail.com, 2010-2011 +// +// Features: +// + Average RTT reduce 30% - 40% vs traditional ARQ like tcp. +// + Maximum RTT reduce three times vs tcp. +// + Lightweight, distributed as a single source file. +// +//===================================================================== +#ifndef __IKCP_H__ +#define __IKCP_H__ + +#include +#include +#include + + +//===================================================================== +// 32BIT INTEGER DEFINITION +//===================================================================== +#ifndef __INTEGER_32_BITS__ +#define __INTEGER_32_BITS__ +#if defined(_WIN64) || defined(WIN64) || defined(__amd64__) || \ + defined(__x86_64) || defined(__x86_64__) || defined(_M_IA64) || \ + defined(_M_AMD64) + typedef unsigned int ISTDUINT32; + typedef int ISTDINT32; +#elif defined(_WIN32) || defined(WIN32) || defined(__i386__) || \ + defined(__i386) || defined(_M_X86) + typedef unsigned long ISTDUINT32; + typedef long ISTDINT32; +#elif defined(__MACOS__) + typedef UInt32 ISTDUINT32; + typedef SInt32 ISTDINT32; +#elif defined(__APPLE__) && defined(__MACH__) + #include + typedef u_int32_t ISTDUINT32; + typedef int32_t ISTDINT32; +#elif defined(__BEOS__) + #include + typedef u_int32_t ISTDUINT32; + typedef int32_t ISTDINT32; +#elif (defined(_MSC_VER) || defined(__BORLANDC__)) && (!defined(__MSDOS__)) + typedef unsigned __int32 ISTDUINT32; + typedef __int32 ISTDINT32; +#elif defined(__GNUC__) + #include + typedef uint32_t ISTDUINT32; + typedef int32_t ISTDINT32; +#else + typedef unsigned long ISTDUINT32; + typedef long ISTDINT32; +#endif +#endif + + +//===================================================================== +// Integer Definition +//===================================================================== +#ifndef __IINT8_DEFINED +#define __IINT8_DEFINED +typedef char IINT8; +#endif + +#ifndef __IUINT8_DEFINED +#define __IUINT8_DEFINED +typedef unsigned char IUINT8; +#endif + +#ifndef __IUINT16_DEFINED +#define __IUINT16_DEFINED +typedef unsigned short IUINT16; +#endif + +#ifndef __IINT16_DEFINED +#define __IINT16_DEFINED +typedef short IINT16; +#endif + +#ifndef __IINT32_DEFINED +#define __IINT32_DEFINED +typedef ISTDINT32 IINT32; +#endif + +#ifndef __IUINT32_DEFINED +#define __IUINT32_DEFINED +typedef ISTDUINT32 IUINT32; +#endif + +#ifndef __IINT64_DEFINED +#define __IINT64_DEFINED +#if defined(_MSC_VER) || defined(__BORLANDC__) +typedef __int64 IINT64; +#else +typedef long long IINT64; +#endif +#endif + +#ifndef __IUINT64_DEFINED +#define __IUINT64_DEFINED +#if defined(_MSC_VER) || defined(__BORLANDC__) +typedef unsigned __int64 IUINT64; +#else +typedef unsigned long long IUINT64; +#endif +#endif + +#ifndef INLINE +#if defined(__GNUC__) + +#if (__GNUC__ > 3) || ((__GNUC__ == 3) && (__GNUC_MINOR__ >= 1)) +#define INLINE __inline__ __attribute__((always_inline)) +#else +#define INLINE __inline__ +#endif + +#elif (defined(_MSC_VER) || defined(__BORLANDC__) || defined(__WATCOMC__)) +#define INLINE __inline +#else +#define INLINE +#endif +#endif + +#if (!defined(__cplusplus)) && (!defined(inline)) +#define inline INLINE +#endif + + +//===================================================================== +// QUEUE DEFINITION +//===================================================================== +#ifndef __IQUEUE_DEF__ +#define __IQUEUE_DEF__ + +struct IQUEUEHEAD { + struct IQUEUEHEAD *next, *prev; +}; + +typedef struct IQUEUEHEAD iqueue_head; + + +//--------------------------------------------------------------------- +// queue init +//--------------------------------------------------------------------- +#define IQUEUE_HEAD_INIT(name) { &(name), &(name) } +#define IQUEUE_HEAD(name) \ + struct IQUEUEHEAD name = IQUEUE_HEAD_INIT(name) + +#define IQUEUE_INIT(ptr) ( \ + (ptr)->next = (ptr), (ptr)->prev = (ptr)) + +#define IOFFSETOF(TYPE, MEMBER) ((size_t) &((TYPE *)0)->MEMBER) + +#define ICONTAINEROF(ptr, type, member) ( \ + (type*)( ((char*)((type*)ptr)) - IOFFSETOF(type, member)) ) + +#define IQUEUE_ENTRY(ptr, type, member) ICONTAINEROF(ptr, type, member) + + +//--------------------------------------------------------------------- +// queue operation +//--------------------------------------------------------------------- +#define IQUEUE_ADD(node, head) ( \ + (node)->prev = (head), (node)->next = (head)->next, \ + (head)->next->prev = (node), (head)->next = (node)) + +#define IQUEUE_ADD_TAIL(node, head) ( \ + (node)->prev = (head)->prev, (node)->next = (head), \ + (head)->prev->next = (node), (head)->prev = (node)) + +#define IQUEUE_DEL_BETWEEN(p, n) ((n)->prev = (p), (p)->next = (n)) + +#define IQUEUE_DEL(entry) (\ + (entry)->next->prev = (entry)->prev, \ + (entry)->prev->next = (entry)->next, \ + (entry)->next = 0, (entry)->prev = 0) + +#define IQUEUE_DEL_INIT(entry) do { \ + IQUEUE_DEL(entry); IQUEUE_INIT(entry); } while (0) + +#define IQUEUE_IS_EMPTY(entry) ((entry) == (entry)->next) + +#define iqueue_init IQUEUE_INIT +#define iqueue_entry IQUEUE_ENTRY +#define iqueue_add IQUEUE_ADD +#define iqueue_add_tail IQUEUE_ADD_TAIL +#define iqueue_del IQUEUE_DEL +#define iqueue_del_init IQUEUE_DEL_INIT +#define iqueue_is_empty IQUEUE_IS_EMPTY + +#define IQUEUE_FOREACH(iterator, head, TYPE, MEMBER) \ + for ((iterator) = iqueue_entry((head)->next, TYPE, MEMBER); \ + &((iterator)->MEMBER) != (head); \ + (iterator) = iqueue_entry((iterator)->MEMBER.next, TYPE, MEMBER)) + +#define iqueue_foreach(iterator, head, TYPE, MEMBER) \ + IQUEUE_FOREACH(iterator, head, TYPE, MEMBER) + +#define iqueue_foreach_entry(pos, head) \ + for( (pos) = (head)->next; (pos) != (head) ; (pos) = (pos)->next ) + + +#define __iqueue_splice(list, head) do { \ + iqueue_head *first = (list)->next, *last = (list)->prev; \ + iqueue_head *at = (head)->next; \ + (first)->prev = (head), (head)->next = (first); \ + (last)->next = (at), (at)->prev = (last); } while (0) + +#define iqueue_splice(list, head) do { \ + if (!iqueue_is_empty(list)) __iqueue_splice(list, head); } while (0) + +#define iqueue_splice_init(list, head) do { \ + iqueue_splice(list, head); iqueue_init(list); } while (0) + + +#ifdef _MSC_VER +#pragma warning(disable:4311) +#pragma warning(disable:4312) +#pragma warning(disable:4996) +#endif + +#endif + + +//--------------------------------------------------------------------- +// BYTE ORDER & ALIGNMENT +//--------------------------------------------------------------------- +#ifndef IWORDS_BIG_ENDIAN + #ifdef _BIG_ENDIAN_ + #if _BIG_ENDIAN_ + #define IWORDS_BIG_ENDIAN 1 + #endif + #endif + #ifndef IWORDS_BIG_ENDIAN + #if defined(__hppa__) || \ + defined(__m68k__) || defined(mc68000) || defined(_M_M68K) || \ + (defined(__MIPS__) && defined(__MIPSEB__)) || \ + defined(__ppc__) || defined(__POWERPC__) || defined(_M_PPC) || \ + defined(__sparc__) || defined(__powerpc__) || \ + defined(__mc68000__) || defined(__s390x__) || defined(__s390__) + #define IWORDS_BIG_ENDIAN 1 + #endif + #endif + #ifndef IWORDS_BIG_ENDIAN + #define IWORDS_BIG_ENDIAN 0 + #endif +#endif + +#ifndef IWORDS_MUST_ALIGN + #if defined(__i386__) || defined(__i386) || defined(_i386_) + #define IWORDS_MUST_ALIGN 0 + #elif defined(_M_IX86) || defined(_X86_) || defined(__x86_64__) + #define IWORDS_MUST_ALIGN 0 + #elif defined(__amd64) || defined(__amd64__) + #define IWORDS_MUST_ALIGN 0 + #else + #define IWORDS_MUST_ALIGN 1 + #endif +#endif + + +//===================================================================== +// SEGMENT +//===================================================================== +struct IKCPSEG +{ + struct IQUEUEHEAD node; + IUINT32 conv; + IUINT32 cmd; + IUINT32 frg; + IUINT32 wnd; + IUINT32 ts; + IUINT32 sn; + IUINT32 una; + IUINT32 len; + IUINT32 resendts; + IUINT32 rto; + IUINT32 fastack; + IUINT32 xmit; + char data[1]; +}; + + +//--------------------------------------------------------------------- +// IKCPCB +//--------------------------------------------------------------------- +struct IKCPCB +{ + IUINT32 conv, mtu, mss, state; + IUINT32 snd_una, snd_nxt, rcv_nxt; + IUINT32 ts_recent, ts_lastack, ssthresh; + IINT32 rx_rttval, rx_srtt, rx_rto, rx_minrto; + IUINT32 snd_wnd, rcv_wnd, rmt_wnd, cwnd, probe; + IUINT32 current, interval, ts_flush, xmit; + IUINT32 nrcv_buf, nsnd_buf; + IUINT32 nrcv_que, nsnd_que; + IUINT32 nodelay, updated; + IUINT32 ts_probe, probe_wait; + IUINT32 dead_link, incr; + struct IQUEUEHEAD snd_queue; + struct IQUEUEHEAD rcv_queue; + struct IQUEUEHEAD snd_buf; + struct IQUEUEHEAD rcv_buf; + IUINT32 *acklist; + IUINT32 ackcount; + IUINT32 ackblock; + void *user; + char *buffer; + int fastresend; + int fastlimit; + int nocwnd, stream; + int logmask; + int (*output)(const char *buf, int len, struct IKCPCB *kcp, void *user); + void (*writelog)(const char *log, struct IKCPCB *kcp, void *user); +}; + + +typedef struct IKCPCB ikcpcb; + +#define IKCP_LOG_OUTPUT 1 +#define IKCP_LOG_INPUT 2 +#define IKCP_LOG_SEND 4 +#define IKCP_LOG_RECV 8 +#define IKCP_LOG_IN_DATA 16 +#define IKCP_LOG_IN_ACK 32 +#define IKCP_LOG_IN_PROBE 64 +#define IKCP_LOG_IN_WINS 128 +#define IKCP_LOG_OUT_DATA 256 +#define IKCP_LOG_OUT_ACK 512 +#define IKCP_LOG_OUT_PROBE 1024 +#define IKCP_LOG_OUT_WINS 2048 + +#ifdef __cplusplus +extern "C" { +#endif + +//--------------------------------------------------------------------- +// interface +//--------------------------------------------------------------------- + +// create a new kcp control object, 'conv' must equal in two endpoint +// from the same connection. 'user' will be passed to the output callback +// output callback can be setup like this: 'kcp->output = my_udp_output' +ikcpcb* ikcp_create(IUINT32 conv, void *user); + +// release kcp control object +void ikcp_release(ikcpcb *kcp); + +// set output callback, which will be invoked by kcp +void ikcp_setoutput(ikcpcb *kcp, int (*output)(const char *buf, int len, + ikcpcb *kcp, void *user)); + +// user/upper level recv: returns size, returns below zero for EAGAIN +int ikcp_recv(ikcpcb *kcp, char *buffer, int len); + +// user/upper level send, returns below zero for error +int ikcp_send(ikcpcb *kcp, const char *buffer, int len); + +// update state (call it repeatedly, every 10ms-100ms), or you can ask +// ikcp_check when to call it again (without ikcp_input/_send calling). +// 'current' - current timestamp in millisec. +void ikcp_update(ikcpcb *kcp, IUINT32 current); + +// Determine when should you invoke ikcp_update: +// returns when you should invoke ikcp_update in millisec, if there +// is no ikcp_input/_send calling. you can call ikcp_update in that +// time, instead of call update repeatly. +// Important to reduce unnacessary ikcp_update invoking. use it to +// schedule ikcp_update (eg. implementing an epoll-like mechanism, +// or optimize ikcp_update when handling massive kcp connections) +IUINT32 ikcp_check(const ikcpcb *kcp, IUINT32 current); + +// when you received a low level packet (eg. UDP packet), call it +int ikcp_input(ikcpcb *kcp, const char *data, long size); + +// flush pending data +void ikcp_flush(ikcpcb *kcp); + +// check the size of next message in the recv queue +int ikcp_peeksize(const ikcpcb *kcp); + +// change MTU size, default is 1400 +int ikcp_setmtu(ikcpcb *kcp, int mtu); + +// set maximum window size: sndwnd=32, rcvwnd=32 by default +int ikcp_wndsize(ikcpcb *kcp, int sndwnd, int rcvwnd); + +// get how many packet is waiting to be sent +int ikcp_waitsnd(const ikcpcb *kcp); + +// fastest: ikcp_nodelay(kcp, 1, 20, 2, 1) +// nodelay: 0:disable(default), 1:enable +// interval: internal update timer interval in millisec, default is 100ms +// resend: 0:disable fast resend(default), 1:enable fast resend +// nc: 0:normal congestion control(default), 1:disable congestion control +int ikcp_nodelay(ikcpcb *kcp, int nodelay, int interval, int resend, int nc); + + +void ikcp_log(ikcpcb *kcp, int mask, const char *fmt, ...); + +// setup allocator +void ikcp_allocator(void* (*new_malloc)(size_t), void (*new_free)(void*)); + +// read conv +IUINT32 ikcp_getconv(const void *ptr); + + +#ifdef __cplusplus +} +#endif + +#endif + + diff --git a/Source/ThirdParty/kcp/kcp.Build.cs b/Source/ThirdParty/kcp/kcp.Build.cs new file mode 100644 index 0000000..3332057 --- /dev/null +++ b/Source/ThirdParty/kcp/kcp.Build.cs @@ -0,0 +1,37 @@ +using System.IO; +using UnrealBuildTool; + +public class kcp : ModuleRules +{ + public kcp(ReadOnlyTargetRules Target) : base(Target) + { + PCHUsage = ModuleRules.PCHUsageMode.UseExplicitOrSharedPCHs; + + PublicIncludePaths.AddRange( + new string[] + { + Path.Combine(ModuleDirectory, "Public") + }); + + + PrivateIncludePaths.AddRange( + new string[] + { + Path.Combine(ModuleDirectory, "Private") + }); + + PublicDependencyModuleNames.AddRange( + new string[] + { + "Core", + }); + + + PrivateDependencyModuleNames.AddRange( + new string[] + { + }); + + PublicDefinitions.Add("_CRT_HAS_CXX17=0"); + } +} diff --git a/Source/ThirdParty/kcp/kcpLibrary.tps b/Source/ThirdParty/kcp/kcpLibrary.tps new file mode 100644 index 0000000..68296c6 --- /dev/null +++ b/Source/ThirdParty/kcp/kcpLibrary.tps @@ -0,0 +1,6 @@ + + + +kcp source files re-packaged to be included in Unreal Engine. Original Omar Cornut's repository can be found at https://github.com/skywind3000/kcp/. + +