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|
#pragma once
#include "udp_address.h"
#if defined(_linux_)
#include <contrib/libs/ibdrv/include/infiniband/verbs.h>
#include <contrib/libs/ibdrv/include/rdma/rdma_cma.h>
#endif
namespace NNetliba {
#define CHECK_Z(x) \
{ \
int rv = (x); \
if (rv != 0) { \
fprintf(stderr, "check_z failed, errno = %d\n", errno); \
Y_ABORT_UNLESS(0, "check_z"); \
} \
}
//////////////////////////////////////////////////////////////////////////
const int MAX_SGE = 1;
const size_t MAX_INLINE_DATA_SIZE = 16;
const int MAX_OUTSTANDING_RDMA = 10;
#if defined(_linux_)
class TIBContext: public TThrRefBase, TNonCopyable {
ibv_context* Context;
ibv_pd* ProtDomain;
TMutex Lock;
~TIBContext() override {
if (Context) {
CHECK_Z(ibv_dealloc_pd(ProtDomain));
CHECK_Z(ibv_close_device(Context));
}
}
public:
TIBContext(ibv_device* device) {
Context = ibv_open_device(device);
if (Context) {
ProtDomain = ibv_alloc_pd(Context);
}
}
bool IsValid() const {
return Context != nullptr && ProtDomain != nullptr;
}
class TLock {
TIntrusivePtr<TIBContext> Ptr;
TGuard<TMutex> Guard;
public:
TLock(TPtrArg<TIBContext> ctx)
: Ptr(ctx)
, Guard(ctx->Lock)
{
}
ibv_context* GetContext() {
return Ptr->Context;
}
ibv_pd* GetProtDomain() {
return Ptr->ProtDomain;
}
};
};
class TIBPort: public TThrRefBase, TNonCopyable {
int Port;
int LID;
TIntrusivePtr<TIBContext> IBCtx;
static constexpr int MAX_GID = 16;
ibv_gid MyGidArr[MAX_GID];
public:
TIBPort(TPtrArg<TIBContext> ctx, int port)
: IBCtx(ctx)
{
ibv_port_attr portAttrs;
TIBContext::TLock ibContext(IBCtx);
CHECK_Z(ibv_query_port(ibContext.GetContext(), port, &portAttrs));
Port = port;
LID = portAttrs.lid;
for (int i = 0; i < MAX_GID; ++i) {
ibv_gid& dst = MyGidArr[i];
Zero(dst);
ibv_query_gid(ibContext.GetContext(), Port, i, &dst);
}
}
int GetPort() const {
return Port;
}
int GetLID() const {
return LID;
}
TIBContext* GetCtx() {
return IBCtx.Get();
}
void GetGID(ibv_gid* res) const {
*res = MyGidArr[0];
}
int GetGIDIndex(const ibv_gid& arg) const {
for (int i = 0; i < MAX_GID; ++i) {
const ibv_gid& chk = MyGidArr[i];
if (memcmp(&chk, &arg, sizeof(chk)) == 0) {
return i;
}
}
return 0;
}
void GetAHAttr(ibv_wc* wc, ibv_grh* grh, ibv_ah_attr* res) {
TIBContext::TLock ibContext(IBCtx);
CHECK_Z(ibv_init_ah_from_wc(ibContext.GetContext(), Port, wc, grh, res));
}
};
class TComplectionQueue: public TThrRefBase, TNonCopyable {
ibv_cq* CQ;
TIntrusivePtr<TIBContext> IBCtx;
~TComplectionQueue() override {
if (CQ) {
CHECK_Z(ibv_destroy_cq(CQ));
}
}
public:
TComplectionQueue(TPtrArg<TIBContext> ctx, int maxCQEcount)
: IBCtx(ctx)
{
TIBContext::TLock ibContext(IBCtx);
/* ibv_cq_init_attr_ex attr;
Zero(attr);
attr.cqe = maxCQEcount;
attr.cq_create_flags = 0;
ibv_cq_ex *vcq = ibv_create_cq_ex(ibContext.GetContext(), &attr);
if (vcq) {
CQ = (ibv_cq*)vcq; // doubtful trick but that's life
} else {*/
// no completion channel
// no completion vector
CQ = ibv_create_cq(ibContext.GetContext(), maxCQEcount, nullptr, nullptr, 0);
// }
}
ibv_cq* GetCQ() {
return CQ;
}
int Poll(ibv_wc* res, int bufSize) {
Y_ASSERT(bufSize >= 1);
//struct ibv_wc
//{
// ui64 wr_id;
// enum ibv_wc_status status;
// enum ibv_wc_opcode opcode;
// ui32 vendor_err;
// ui32 byte_len;
// ui32 imm_data;/* network byte order */
// ui32 qp_num;
// ui32 src_qp;
// enum ibv_wc_flags wc_flags;
// ui16 pkey_index;
// ui16 slid;
// ui8 sl;
// ui8 dlid_path_bits;
//};
int rv = ibv_poll_cq(CQ, bufSize, res);
if (rv < 0) {
Y_ABORT_UNLESS(0, "ibv_poll_cq failed");
}
if (rv > 0) {
//printf("Completed wr\n");
//printf(" wr_id = %" PRIx64 "\n", wc.wr_id);
//printf(" status = %d\n", wc.status);
//printf(" opcode = %d\n", wc.opcode);
//printf(" byte_len = %d\n", wc.byte_len);
//printf(" imm_data = %d\n", wc.imm_data);
//printf(" qp_num = %d\n", wc.qp_num);
//printf(" src_qp = %d\n", wc.src_qp);
//printf(" wc_flags = %x\n", wc.wc_flags);
//printf(" slid = %d\n", wc.slid);
}
//rv = number_of_toggled_wc;
return rv;
}
};
//struct ibv_mr
//{
// struct ibv_context *context;
// struct ibv_pd *pd;
// void *addr;
// size_t length;
// ui32 handle;
// ui32 lkey;
// ui32 rkey;
//};
class TMemoryRegion: public TThrRefBase, TNonCopyable {
ibv_mr* MR;
TIntrusivePtr<TIBContext> IBCtx;
~TMemoryRegion() override {
if (MR) {
CHECK_Z(ibv_dereg_mr(MR));
}
}
public:
TMemoryRegion(TPtrArg<TIBContext> ctx, size_t len)
: IBCtx(ctx)
{
TIBContext::TLock ibContext(IBCtx);
int access = IBV_ACCESS_LOCAL_WRITE | IBV_ACCESS_REMOTE_WRITE | IBV_ACCESS_REMOTE_READ; // TODO: IBV_ACCESS_ALLOCATE_MR
MR = ibv_reg_mr(ibContext.GetProtDomain(), 0, len, access);
Y_ASSERT(MR);
}
ui32 GetLKey() const {
static_assert(sizeof(ui32) == sizeof(MR->lkey), "expect sizeof(ui32) == sizeof(MR->lkey)");
return MR->lkey;
}
ui32 GetRKey() const {
static_assert(sizeof(ui32) == sizeof(MR->lkey), "expect sizeof(ui32) == sizeof(MR->lkey)");
return MR->lkey;
}
char* GetData() {
return MR ? (char*)MR->addr : nullptr;
}
bool IsCovered(const void* data, size_t len) const {
size_t dataAddr = reinterpret_cast<size_t>(data) / sizeof(char);
size_t bufAddr = reinterpret_cast<size_t>(MR->addr) / sizeof(char);
return (dataAddr >= bufAddr) && (dataAddr + len <= bufAddr + MR->length);
}
};
class TSharedReceiveQueue: public TThrRefBase, TNonCopyable {
ibv_srq* SRQ;
TIntrusivePtr<TIBContext> IBCtx;
~TSharedReceiveQueue() override {
if (SRQ) {
ibv_destroy_srq(SRQ);
}
}
public:
TSharedReceiveQueue(TPtrArg<TIBContext> ctx, int maxWR)
: IBCtx(ctx)
{
ibv_srq_init_attr attr;
Zero(attr);
attr.srq_context = this;
attr.attr.max_sge = MAX_SGE;
attr.attr.max_wr = maxWR;
TIBContext::TLock ibContext(IBCtx);
SRQ = ibv_create_srq(ibContext.GetProtDomain(), &attr);
Y_ASSERT(SRQ);
}
ibv_srq* GetSRQ() {
return SRQ;
}
void PostReceive(TPtrArg<TMemoryRegion> mem, ui64 id, const void* buf, size_t len) {
Y_ASSERT(mem->IsCovered(buf, len));
ibv_recv_wr wr, *bad;
ibv_sge sg;
sg.addr = reinterpret_cast<ui64>(buf) / sizeof(char);
sg.length = len;
sg.lkey = mem->GetLKey();
Zero(wr);
wr.wr_id = id;
wr.sg_list = &sg;
wr.num_sge = 1;
CHECK_Z(ibv_post_srq_recv(SRQ, &wr, &bad));
}
};
inline void MakeAH(ibv_ah_attr* res, TPtrArg<TIBPort> port, int lid, int serviceLevel) {
Zero(*res);
res->dlid = lid;
res->port_num = port->GetPort();
res->sl = serviceLevel;
}
void MakeAH(ibv_ah_attr* res, TPtrArg<TIBPort> port, const TUdpAddress& remoteAddr, const TUdpAddress& localAddr, int serviceLevel);
class TAddressHandle: public TThrRefBase, TNonCopyable {
ibv_ah* AH;
TIntrusivePtr<TIBContext> IBCtx;
~TAddressHandle() override {
if (AH) {
CHECK_Z(ibv_destroy_ah(AH));
}
AH = nullptr;
IBCtx = nullptr;
}
public:
TAddressHandle(TPtrArg<TIBContext> ctx, ibv_ah_attr* attr)
: IBCtx(ctx)
{
TIBContext::TLock ibContext(IBCtx);
AH = ibv_create_ah(ibContext.GetProtDomain(), attr);
Y_ASSERT(AH != nullptr);
}
TAddressHandle(TPtrArg<TIBPort> port, int lid, int serviceLevel)
: IBCtx(port->GetCtx())
{
ibv_ah_attr attr;
MakeAH(&attr, port, lid, serviceLevel);
TIBContext::TLock ibContext(IBCtx);
AH = ibv_create_ah(ibContext.GetProtDomain(), &attr);
Y_ASSERT(AH != nullptr);
}
TAddressHandle(TPtrArg<TIBPort> port, const TUdpAddress& remoteAddr, const TUdpAddress& localAddr, int serviceLevel)
: IBCtx(port->GetCtx())
{
ibv_ah_attr attr;
MakeAH(&attr, port, remoteAddr, localAddr, serviceLevel);
TIBContext::TLock ibContext(IBCtx);
AH = ibv_create_ah(ibContext.GetProtDomain(), &attr);
Y_ASSERT(AH != nullptr);
}
ibv_ah* GetAH() {
return AH;
}
bool IsValid() const {
return AH != nullptr;
}
};
// GRH + wc -> address_handle_attr
//int ibv_init_ah_from_wc(struct ibv_context *context, ui8 port_num,
//struct ibv_wc *wc, struct ibv_grh *grh,
//struct ibv_ah_attr *ah_attr)
//ibv_create_ah_from_wc(struct ibv_pd *pd, struct ibv_wc *wc, struct ibv_grh
// *grh, ui8 port_num)
class TQueuePair: public TThrRefBase, TNonCopyable {
protected:
ibv_qp* QP;
int MyPSN; // start packet sequence number
TIntrusivePtr<TIBContext> IBCtx;
TIntrusivePtr<TComplectionQueue> CQ;
TIntrusivePtr<TSharedReceiveQueue> SRQ;
TQueuePair(TPtrArg<TIBContext> ctx, TPtrArg<TComplectionQueue> cq, TPtrArg<TSharedReceiveQueue> srq,
int sendQueueSize,
ibv_qp_type qp_type)
: IBCtx(ctx)
, CQ(cq)
, SRQ(srq)
{
MyPSN = GetCycleCount() & 0xffffff; // should be random and different on different runs, 24bit
ibv_qp_init_attr attr;
Zero(attr);
attr.qp_context = this; // not really useful
attr.send_cq = cq->GetCQ();
attr.recv_cq = cq->GetCQ();
attr.srq = srq->GetSRQ();
attr.cap.max_send_wr = sendQueueSize;
attr.cap.max_recv_wr = 0; // we are using srq, no need for qp's rq
attr.cap.max_send_sge = MAX_SGE;
attr.cap.max_recv_sge = MAX_SGE;
attr.cap.max_inline_data = MAX_INLINE_DATA_SIZE;
attr.qp_type = qp_type;
attr.sq_sig_all = 1; // inline sends need not be signaled, but if they are not work queue overflows
TIBContext::TLock ibContext(IBCtx);
QP = ibv_create_qp(ibContext.GetProtDomain(), &attr);
Y_ASSERT(QP);
//struct ibv_qp {
// struct ibv_context *context;
// void *qp_context;
// struct ibv_pd *pd;
// struct ibv_cq *send_cq;
// struct ibv_cq *recv_cq;
// struct ibv_srq *srq;
// ui32 handle;
// ui32 qp_num;
// enum ibv_qp_state state;
// enum ibv_qp_type qp_type;
// pthread_mutex_t mutex;
// pthread_cond_t cond;
// ui32 events_completed;
//};
//qp_context The value qp_context that was provided to ibv_create_qp()
//qp_num The number of this Queue Pair
//state The last known state of this Queue Pair. The actual state may be different from this state (in the RDMA device transitioned the state into other state)
//qp_type The Transport Service Type of this Queue Pair
}
~TQueuePair() override {
if (QP) {
CHECK_Z(ibv_destroy_qp(QP));
}
}
void FillSendAttrs(ibv_send_wr* wr, ibv_sge* sg,
ui64 localAddr, ui32 lKey, ui64 id, size_t len) {
sg->addr = localAddr;
sg->length = len;
sg->lkey = lKey;
Zero(*wr);
wr->wr_id = id;
wr->sg_list = sg;
wr->num_sge = 1;
if (len <= MAX_INLINE_DATA_SIZE) {
wr->send_flags = IBV_SEND_INLINE;
}
}
void FillSendAttrs(ibv_send_wr* wr, ibv_sge* sg,
TPtrArg<TMemoryRegion> mem, ui64 id, const void* data, size_t len) {
ui64 localAddr = reinterpret_cast<ui64>(data) / sizeof(char);
ui32 lKey = 0;
if (mem) {
Y_ASSERT(mem->IsCovered(data, len));
lKey = mem->GetLKey();
} else {
Y_ASSERT(len <= MAX_INLINE_DATA_SIZE);
}
FillSendAttrs(wr, sg, localAddr, lKey, id, len);
}
public:
int GetQPN() const {
if (QP)
return QP->qp_num;
return 0;
}
int GetPSN() const {
return MyPSN;
}
// we are using srq
//void PostReceive(const TMemoryRegion &mem)
//{
// ibv_recv_wr wr, *bad;
// ibv_sge sg;
// sg.addr = mem.Addr;
// sg.length = mem.Length;
// sg.lkey = mem.lkey;
// Zero(wr);
// wr.wr_id = 13;
// wr.sg_list = sg;
// wr.num_sge = 1;
// CHECK_Z(ibv_post_recv(QP, &wr, &bad));
//}
};
class TRCQueuePair: public TQueuePair {
public:
TRCQueuePair(TPtrArg<TIBContext> ctx, TPtrArg<TComplectionQueue> cq, TPtrArg<TSharedReceiveQueue> srq, int sendQueueSize)
: TQueuePair(ctx, cq, srq, sendQueueSize, IBV_QPT_RC)
{
}
// SRQ should have receive posted
void Init(const ibv_ah_attr& peerAddr, int peerQPN, int peerPSN) {
Y_ASSERT(QP->qp_type == IBV_QPT_RC);
ibv_qp_attr attr;
//{
// enum ibv_qp_state qp_state;
// enum ibv_qp_state cur_qp_state;
// enum ibv_mtu path_mtu;
// enum ibv_mig_state path_mig_state;
// ui32 qkey;
// ui32 rq_psn;
// ui32 sq_psn;
// ui32 dest_qp_num;
// int qp_access_flags;
// struct ibv_qp_cap cap;
// struct ibv_ah_attr ah_attr;
// struct ibv_ah_attr alt_ah_attr;
// ui16 pkey_index;
// ui16 alt_pkey_index;
// ui8 en_sqd_async_notify;
// ui8 sq_draining;
// ui8 max_rd_atomic;
// ui8 max_dest_rd_atomic;
// ui8 min_rnr_timer;
// ui8 port_num;
// ui8 timeout;
// ui8 retry_cnt;
// ui8 rnr_retry;
// ui8 alt_port_num;
// ui8 alt_timeout;
//};
// RESET -> INIT
Zero(attr);
attr.qp_state = IBV_QPS_INIT;
attr.pkey_index = 0;
attr.port_num = peerAddr.port_num;
// for connected QP
attr.qp_access_flags = IBV_ACCESS_REMOTE_WRITE | IBV_ACCESS_REMOTE_READ | IBV_ACCESS_REMOTE_ATOMIC;
CHECK_Z(ibv_modify_qp(QP, &attr,
IBV_QP_STATE | IBV_QP_PKEY_INDEX | IBV_QP_PORT | IBV_QP_ACCESS_FLAGS));
// INIT -> ReadyToReceive
//PostReceive(mem);
attr.qp_state = IBV_QPS_RTR;
attr.path_mtu = IBV_MTU_512; // allows more fine grained VL arbitration
// for connected QP
attr.ah_attr = peerAddr;
attr.dest_qp_num = peerQPN;
attr.rq_psn = peerPSN;
attr.max_dest_rd_atomic = MAX_OUTSTANDING_RDMA; // number of outstanding RDMA requests
attr.min_rnr_timer = 12; // recommended
CHECK_Z(ibv_modify_qp(QP, &attr,
IBV_QP_STATE | IBV_QP_PATH_MTU |
IBV_QP_AV | IBV_QP_DEST_QPN | IBV_QP_RQ_PSN | IBV_QP_MAX_DEST_RD_ATOMIC | IBV_QP_MIN_RNR_TIMER));
// ReadyToReceive -> ReadyToTransmit
attr.qp_state = IBV_QPS_RTS;
// for connected QP
attr.timeout = 14; // increased to 18 for sometime, 14 recommended
//attr.retry_cnt = 0; // for debug purposes
//attr.rnr_retry = 0; // for debug purposes
attr.retry_cnt = 7; // release configuration
attr.rnr_retry = 7; // release configuration (try forever)
attr.sq_psn = MyPSN;
attr.max_rd_atomic = MAX_OUTSTANDING_RDMA; // number of outstanding RDMA requests
CHECK_Z(ibv_modify_qp(QP, &attr,
IBV_QP_STATE |
IBV_QP_TIMEOUT | IBV_QP_RETRY_CNT | IBV_QP_RNR_RETRY | IBV_QP_SQ_PSN | IBV_QP_MAX_QP_RD_ATOMIC));
}
void PostSend(TPtrArg<TMemoryRegion> mem, ui64 id, const void* data, size_t len) {
ibv_send_wr wr, *bad;
ibv_sge sg;
FillSendAttrs(&wr, &sg, mem, id, data, len);
wr.opcode = IBV_WR_SEND;
//IBV_WR_RDMA_WRITE
//IBV_WR_RDMA_WRITE_WITH_IMM
//IBV_WR_SEND
//IBV_WR_SEND_WITH_IMM
//IBV_WR_RDMA_READ
//wr.imm_data = xz;
CHECK_Z(ibv_post_send(QP, &wr, &bad));
}
void PostRDMAWrite(ui64 remoteAddr, ui32 remoteKey,
TPtrArg<TMemoryRegion> mem, ui64 id, const void* data, size_t len) {
ibv_send_wr wr, *bad;
ibv_sge sg;
FillSendAttrs(&wr, &sg, mem, id, data, len);
wr.opcode = IBV_WR_RDMA_WRITE;
wr.wr.rdma.remote_addr = remoteAddr;
wr.wr.rdma.rkey = remoteKey;
CHECK_Z(ibv_post_send(QP, &wr, &bad));
}
void PostRDMAWrite(ui64 remoteAddr, ui32 remoteKey,
ui64 localAddr, ui32 localKey, ui64 id, size_t len) {
ibv_send_wr wr, *bad;
ibv_sge sg;
FillSendAttrs(&wr, &sg, localAddr, localKey, id, len);
wr.opcode = IBV_WR_RDMA_WRITE;
wr.wr.rdma.remote_addr = remoteAddr;
wr.wr.rdma.rkey = remoteKey;
CHECK_Z(ibv_post_send(QP, &wr, &bad));
}
void PostRDMAWriteImm(ui64 remoteAddr, ui32 remoteKey, ui32 immData,
TPtrArg<TMemoryRegion> mem, ui64 id, const void* data, size_t len) {
ibv_send_wr wr, *bad;
ibv_sge sg;
FillSendAttrs(&wr, &sg, mem, id, data, len);
wr.opcode = IBV_WR_RDMA_WRITE_WITH_IMM;
wr.imm_data = immData;
wr.wr.rdma.remote_addr = remoteAddr;
wr.wr.rdma.rkey = remoteKey;
CHECK_Z(ibv_post_send(QP, &wr, &bad));
}
};
class TUDQueuePair: public TQueuePair {
TIntrusivePtr<TIBPort> Port;
public:
TUDQueuePair(TPtrArg<TIBPort> port, TPtrArg<TComplectionQueue> cq, TPtrArg<TSharedReceiveQueue> srq, int sendQueueSize)
: TQueuePair(port->GetCtx(), cq, srq, sendQueueSize, IBV_QPT_UD)
, Port(port)
{
}
// SRQ should have receive posted
void Init(int qkey) {
Y_ASSERT(QP->qp_type == IBV_QPT_UD);
ibv_qp_attr attr;
// RESET -> INIT
Zero(attr);
attr.qp_state = IBV_QPS_INIT;
attr.pkey_index = 0;
attr.port_num = Port->GetPort();
// for unconnected qp
attr.qkey = qkey;
CHECK_Z(ibv_modify_qp(QP, &attr,
IBV_QP_STATE | IBV_QP_PKEY_INDEX | IBV_QP_PORT | IBV_QP_QKEY));
// INIT -> ReadyToReceive
//PostReceive(mem);
attr.qp_state = IBV_QPS_RTR;
CHECK_Z(ibv_modify_qp(QP, &attr, IBV_QP_STATE));
// ReadyToReceive -> ReadyToTransmit
attr.qp_state = IBV_QPS_RTS;
attr.sq_psn = 0;
CHECK_Z(ibv_modify_qp(QP, &attr, IBV_QP_STATE | IBV_QP_SQ_PSN));
}
void PostSend(TPtrArg<TAddressHandle> ah, int remoteQPN, int remoteQKey,
TPtrArg<TMemoryRegion> mem, ui64 id, const void* data, size_t len) {
ibv_send_wr wr, *bad;
ibv_sge sg;
FillSendAttrs(&wr, &sg, mem, id, data, len);
wr.opcode = IBV_WR_SEND;
wr.wr.ud.ah = ah->GetAH();
wr.wr.ud.remote_qpn = remoteQPN;
wr.wr.ud.remote_qkey = remoteQKey;
//IBV_WR_SEND_WITH_IMM
//wr.imm_data = xz;
CHECK_Z(ibv_post_send(QP, &wr, &bad));
}
};
TIntrusivePtr<TIBPort> GetIBDevice();
#else
//////////////////////////////////////////////////////////////////////////
// stub for OS without IB support
//////////////////////////////////////////////////////////////////////////
enum ibv_wc_opcode {
IBV_WC_SEND,
IBV_WC_RDMA_WRITE,
IBV_WC_RDMA_READ,
IBV_WC_COMP_SWAP,
IBV_WC_FETCH_ADD,
IBV_WC_BIND_MW,
IBV_WC_RECV = 1 << 7,
IBV_WC_RECV_RDMA_WITH_IMM
};
enum ibv_wc_status {
IBV_WC_SUCCESS,
// lots of errors follow
};
//struct ibv_device;
//struct ibv_pd;
union ibv_gid {
ui8 raw[16];
struct {
ui64 subnet_prefix;
ui64 interface_id;
} global;
};
struct ibv_wc {
ui64 wr_id;
enum ibv_wc_status status;
enum ibv_wc_opcode opcode;
ui32 imm_data; /* in network byte order */
ui32 qp_num;
ui32 src_qp;
};
struct ibv_grh {};
struct ibv_ah_attr {
ui8 sl;
};
//struct ibv_cq;
class TIBContext: public TThrRefBase, TNonCopyable {
public:
bool IsValid() const {
return false;
}
//ibv_context *GetContext() { return 0; }
//ibv_pd *GetProtDomain() { return 0; }
};
class TIBPort: public TThrRefBase, TNonCopyable {
public:
TIBPort(TPtrArg<TIBContext>, int) {
}
int GetPort() const {
return 1;
}
int GetLID() const {
return 1;
}
TIBContext* GetCtx() {
return 0;
}
void GetGID(ibv_gid* res) {
Zero(*res);
}
void GetAHAttr(ibv_wc*, ibv_grh*, ibv_ah_attr*) {
}
};
class TComplectionQueue: public TThrRefBase, TNonCopyable {
public:
TComplectionQueue(TPtrArg<TIBContext>, int) {
}
//ibv_cq *GetCQ() { return 0; }
int Poll(ibv_wc*, int) {
return 0;
}
};
class TMemoryRegion: public TThrRefBase, TNonCopyable {
public:
TMemoryRegion(TPtrArg<TIBContext>, size_t) {
}
ui32 GetLKey() const {
return 0;
}
ui32 GetRKey() const {
return 0;
}
char* GetData() {
return 0;
}
bool IsCovered(const void*, size_t) const {
return false;
}
};
class TSharedReceiveQueue: public TThrRefBase, TNonCopyable {
public:
TSharedReceiveQueue(TPtrArg<TIBContext>, int) {
}
//ibv_srq *GetSRQ() { return SRQ; }
void PostReceive(TPtrArg<TMemoryRegion>, ui64, const void*, size_t) {
}
};
inline void MakeAH(ibv_ah_attr*, TPtrArg<TIBPort>, int, int) {
}
class TAddressHandle: public TThrRefBase, TNonCopyable {
public:
TAddressHandle(TPtrArg<TIBContext>, ibv_ah_attr*) {
}
TAddressHandle(TPtrArg<TIBPort>, int, int) {
}
TAddressHandle(TPtrArg<TIBPort>, const TUdpAddress&, const TUdpAddress&, int) {
}
//ibv_ah *GetAH() { return AH; }
bool IsValid() {
return true;
}
};
class TQueuePair: public TThrRefBase, TNonCopyable {
public:
int GetQPN() const {
return 0;
}
int GetPSN() const {
return 0;
}
};
class TRCQueuePair: public TQueuePair {
public:
TRCQueuePair(TPtrArg<TIBContext>, TPtrArg<TComplectionQueue>, TPtrArg<TSharedReceiveQueue>, int) {
}
// SRQ should have receive posted
void Init(const ibv_ah_attr&, int, int) {
}
void PostSend(TPtrArg<TMemoryRegion>, ui64, const void*, size_t) {
}
void PostRDMAWrite(ui64, ui32, TPtrArg<TMemoryRegion>, ui64, const void*, size_t) {
}
void PostRDMAWrite(ui64, ui32, ui64, ui32, ui64, size_t) {
}
void PostRDMAWriteImm(ui64, ui32, ui32, TPtrArg<TMemoryRegion>, ui64, const void*, size_t) {
}
};
class TUDQueuePair: public TQueuePair {
TIntrusivePtr<TIBPort> Port;
public:
TUDQueuePair(TPtrArg<TIBPort>, TPtrArg<TComplectionQueue>, TPtrArg<TSharedReceiveQueue>, int) {
}
// SRQ should have receive posted
void Init(int) {
}
void PostSend(TPtrArg<TAddressHandle>, int, int, TPtrArg<TMemoryRegion>, ui64, const void*, size_t) {
}
};
inline TIntrusivePtr<TIBPort> GetIBDevice() {
return 0;
}
#endif
}
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