/* Copyright (C) 2014 Timo Dritschler (Karlsruhe Institute of Technology) This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110, USA */ #include #include #include #ifndef __KIRO_RDMA_H__ #define __KIRO_RDMA_H__ #include struct kiro_connection_context { // Information and necessary structurs uint32_t identifier; // Unique Identifier for this connection (Application Specific) struct kiro_rdma_mem *cf_mr_recv; // Control-Flow Memory Region Receive struct kiro_rdma_mem *cf_mr_send; // Control-Flow Memory Region Send struct kiro_rdma_mem *rdma_mr; // Memory Region for RDMA Operations struct ibv_mr peer_mr; // RDMA Memory Region Information of the peer enum { KIRO_IDLE, KIRO_MRI_REQUESTED, // Memory Region Information Requested KIRO_RDMA_ESTABLISHED, // MRI Exchange complete. RDMA is ready KIRO_RDMA_ACTIVE // RDMA Operation is being performed } rdma_state; }; struct kiro_connection { uint32_t identifier; struct rdma_cm_id *id; struct kiro_connection *next; }; struct kiro_ctrl_msg { enum { KIRO_REQ_RDMA, // Requesting RDMA Access to/from the peer KIRO_ACK_RDMA, // acknowledge RDMA Request and provide Memory Region Information KIRO_REJ_RDMA // RDMA Request rejected :( (peer_mri will be invalid) } msg_type; struct ibv_mr peer_mri; }; struct kiro_rdma_mem { void *mem; // Pointer to the beginning of the memory block struct ibv_mr *mr; // Memory Region associated with the memory size_t size; // Size in Bytes of the memory block }; static int kiro_register_rdma_memory (struct ibv_pd *pd, struct ibv_mr **mr, void *mem, size_t mem_size, int access) { if(mem_size == 0) { printf("Cant allocate memory of size '0'.\n"); return -1; } void *mem_handle = mem; if(!mem_handle) mem_handle = malloc(mem_size); if(!mem_handle) { printf("Failed to allocate memory [Register Memory]."); return -1; } *mr = ibv_reg_mr(pd, mem_handle, mem_size, access); if(!(*mr)) { // Memory Registration failed printf("Failed to register memory region!\n"); free(mem_handle); return -1; } return 0; } static struct kiro_rdma_mem* kiro_create_rdma_memory (struct ibv_pd *pd, size_t mem_size, int access) { if(mem_size == 0) { printf("Cant allocate memory of size '0'.\n"); return NULL; } struct kiro_rdma_mem *krm = (struct kiro_rdma_mem *)calloc(1, sizeof(struct kiro_rdma_mem)); if(!krm) { printf("Failed to create new KIRO RDMA Memory.\n"); return NULL; } if(kiro_register_rdma_memory(pd, &(krm->mr), krm->mem, mem_size, access)) { free(krm); return NULL; } if(!krm->mem) krm->mem = krm->mr->addr; return krm; } static void kiro_destroy_rdma_memory (struct kiro_rdma_mem *krm) { if(!krm) return; if(krm->mr) ibv_dereg_mr(krm->mr); if(krm->mem) free(krm->mem); free(krm); krm = NULL; } static void kiro_destroy_connection_context (struct kiro_connection_context *ctx) { if(!ctx) return; if(ctx->cf_mr_recv) kiro_destroy_rdma_memory(ctx->cf_mr_recv); if(ctx->cf_mr_send) kiro_destroy_rdma_memory(ctx->cf_mr_send); if(ctx->rdma_mr) kiro_destroy_rdma_memory(ctx->rdma_mr); free(ctx); ctx = NULL; } #endif //__KIRO_RDMA_H__