/* * Copyright (C) 2007 Michael Brown . * * Based in part upon the original driver by Mellanox Technologies * Ltd. Portions may be Copyright (c) Mellanox Technologies Ltd. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of the * License, or any later version. * * This program 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 * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ FILE_LICENCE ( GPL2_OR_LATER ); #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "arbel.h" /** * @file * * Mellanox Arbel Infiniband HCA * */ /*************************************************************************** * * Queue number allocation * *************************************************************************** */ /** * Allocate queue number * * @v q_inuse Queue usage bitmask * @v max_inuse Maximum number of in-use queues * @ret qn_offset Free queue number offset, or negative error */ static int arbel_alloc_qn_offset ( arbel_bitmask_t *q_inuse, unsigned int max_inuse ) { unsigned int qn_offset = 0; arbel_bitmask_t mask = 1; while ( qn_offset < max_inuse ) { if ( ( mask & *q_inuse ) == 0 ) { *q_inuse |= mask; return qn_offset; } qn_offset++; mask <<= 1; if ( ! mask ) { mask = 1; q_inuse++; } } return -ENFILE; } /** * Free queue number * * @v q_inuse Queue usage bitmask * @v qn_offset Queue number offset */ static void arbel_free_qn_offset ( arbel_bitmask_t *q_inuse, int qn_offset ) { arbel_bitmask_t mask; mask = ( 1 << ( qn_offset % ( 8 * sizeof ( mask ) ) ) ); q_inuse += ( qn_offset / ( 8 * sizeof ( mask ) ) ); *q_inuse &= ~mask; } /*************************************************************************** * * HCA commands * *************************************************************************** */ /** * Wait for Arbel command completion * * @v arbel Arbel device * @ret rc Return status code */ static int arbel_cmd_wait ( struct arbel *arbel, struct arbelprm_hca_command_register *hcr ) { unsigned int wait; for ( wait = ARBEL_HCR_MAX_WAIT_MS ; wait ; wait-- ) { hcr->u.dwords[6] = readl ( arbel->config + ARBEL_HCR_REG ( 6 ) ); if ( MLX_GET ( hcr, go ) == 0 ) return 0; mdelay ( 1 ); } return -EBUSY; } /** * Issue HCA command * * @v arbel Arbel device * @v command Command opcode, flags and input/output lengths * @v op_mod Opcode modifier (0 if no modifier applicable) * @v in Input parameters * @v in_mod Input modifier (0 if no modifier applicable) * @v out Output parameters * @ret rc Return status code */ static int arbel_cmd ( struct arbel *arbel, unsigned long command, unsigned int op_mod, const void *in, unsigned int in_mod, void *out ) { struct arbelprm_hca_command_register hcr; unsigned int opcode = ARBEL_HCR_OPCODE ( command ); size_t in_len = ARBEL_HCR_IN_LEN ( command ); size_t out_len = ARBEL_HCR_OUT_LEN ( command ); void *in_buffer; void *out_buffer; unsigned int status; unsigned int i; int rc; assert ( in_len <= ARBEL_MBOX_SIZE ); assert ( out_len <= ARBEL_MBOX_SIZE ); DBGC2 ( arbel, "Arbel %p command %02x in %zx%s out %zx%s\n", arbel, opcode, in_len, ( ( command & ARBEL_HCR_IN_MBOX ) ? "(mbox)" : "" ), out_len, ( ( command & ARBEL_HCR_OUT_MBOX ) ? "(mbox)" : "" ) ); /* Check that HCR is free */ if ( ( rc = arbel_cmd_wait ( arbel, &hcr ) ) != 0 ) { DBGC ( arbel, "Arbel %p command interface locked\n", arbel ); return rc; } /* Prepare HCR */ memset ( &hcr, 0, sizeof ( hcr ) ); in_buffer = &hcr.u.dwords[0]; if ( in_len && ( command & ARBEL_HCR_IN_MBOX ) ) { in_buffer = arbel->mailbox_in; MLX_FILL_1 ( &hcr, 1, in_param_l, virt_to_bus ( in_buffer ) ); } memcpy ( in_buffer, in, in_len ); MLX_FILL_1 ( &hcr, 2, input_modifier, in_mod ); out_buffer = &hcr.u.dwords[3]; if ( out_len && ( command & ARBEL_HCR_OUT_MBOX ) ) { out_buffer = arbel->mailbox_out; MLX_FILL_1 ( &hcr, 4, out_param_l, virt_to_bus ( out_buffer ) ); } MLX_FILL_3 ( &hcr, 6, opcode, opcode, opcode_modifier, op_mod, go, 1 ); DBGC2_HD ( arbel, &hcr, sizeof ( hcr ) ); if ( in_len ) { DBGC2 ( arbel, "Input:\n" ); DBGC2_HD ( arbel, in, ( ( in_len < 512 ) ? in_len : 512 ) ); } /* Issue command */ for ( i = 0 ; i < ( sizeof ( hcr ) / sizeof ( hcr.u.dwords[0] ) ) ; i++ ) { writel ( hcr.u.dwords[i], arbel->config + ARBEL_HCR_REG ( i ) ); barrier(); } /* Wait for command completion */ if ( ( rc = arbel_cmd_wait ( arbel, &hcr ) ) != 0 ) { DBGC ( arbel, "Arbel %p timed out waiting for command:\n", arbel ); DBGC_HD ( arbel, &hcr, sizeof ( hcr ) ); return rc; } /* Check command status */ status = MLX_GET ( &hcr, status ); if ( status != 0 ) { DBGC ( arbel, "Arbel %p command failed with status %02x:\n", arbel, status ); DBGC_HD ( arbel, &hcr, sizeof ( hcr ) ); return -EIO; } /* Read output parameters, if any */ hcr.u.dwords[3] = readl ( arbel->config + ARBEL_HCR_REG ( 3 ) ); hcr.u.dwords[4] = readl ( arbel->config + ARBEL_HCR_REG ( 4 ) ); memcpy ( out, out_buffer, out_len ); if ( out_len ) { DBGC2 ( arbel, "Output:\n" ); DBGC2_HD ( arbel, out, ( ( out_len < 512 ) ? out_len : 512 ) ); } return 0; } static inline int arbel_cmd_query_dev_lim ( struct arbel *arbel, struct arbelprm_query_dev_lim *dev_lim ) { return arbel_cmd ( arbel, ARBEL_HCR_OUT_CMD ( ARBEL_HCR_QUERY_DEV_LIM, 1, sizeof ( *dev_lim ) ), 0, NULL, 0, dev_lim ); } static inline int arbel_cmd_query_fw ( struct arbel *arbel, struct arbelprm_query_fw *fw ) { return arbel_cmd ( arbel, ARBEL_HCR_OUT_CMD ( ARBEL_HCR_QUERY_FW, 1, sizeof ( *fw ) ), 0, NULL, 0, fw ); } static inline int arbel_cmd_init_hca ( struct arbel *arbel, const struct arbelprm_init_hca *init_hca ) { return arbel_cmd ( arbel, ARBEL_HCR_IN_CMD ( ARBEL_HCR_INIT_HCA, 1, sizeof ( *init_hca ) ), 0, init_hca, 0, NULL ); } static inline int arbel_cmd_close_hca ( struct arbel *arbel ) { return arbel_cmd ( arbel, ARBEL_HCR_VOID_CMD ( ARBEL_HCR_CLOSE_HCA ), 0, NULL, 0, NULL ); } static inline int arbel_cmd_init_ib ( struct arbel *arbel, unsigned int port, const struct arbelprm_init_ib *init_ib ) { return arbel_cmd ( arbel, ARBEL_HCR_IN_CMD ( ARBEL_HCR_INIT_IB, 1, sizeof ( *init_ib ) ), 0, init_ib, port, NULL ); } static inline int arbel_cmd_close_ib ( struct arbel *arbel, unsigned int port ) { return arbel_cmd ( arbel, ARBEL_HCR_VOID_CMD ( ARBEL_HCR_CLOSE_IB ), 0, NULL, port, NULL ); } static inline int arbel_cmd_sw2hw_mpt ( struct arbel *arbel, unsigned int index, const struct arbelprm_mpt *mpt ) { return arbel_cmd ( arbel, ARBEL_HCR_IN_CMD ( ARBEL_HCR_SW2HW_MPT, 1, sizeof ( *mpt ) ), 0, mpt, index, NULL ); } static inline int arbel_cmd_map_eq ( struct arbel *arbel, unsigned long index_map, const struct arbelprm_event_mask *mask ) { return arbel_cmd ( arbel, ARBEL_HCR_IN_CMD ( ARBEL_HCR_MAP_EQ, 0, sizeof ( *mask ) ), 0, mask, index_map, NULL ); } static inline int arbel_cmd_sw2hw_eq ( struct arbel *arbel, unsigned int index, const struct arbelprm_eqc *eqctx ) { return arbel_cmd ( arbel, ARBEL_HCR_IN_CMD ( ARBEL_HCR_SW2HW_EQ, 1, sizeof ( *eqctx ) ), 0, eqctx, index, NULL ); } static inline int arbel_cmd_hw2sw_eq ( struct arbel *arbel, unsigned int index, struct arbelprm_eqc *eqctx ) { return arbel_cmd ( arbel, ARBEL_HCR_OUT_CMD ( ARBEL_HCR_HW2SW_EQ, 1, sizeof ( *eqctx ) ), 1, NULL, index, eqctx ); } static inline int arbel_cmd_sw2hw_cq ( struct arbel *arbel, unsigned long cqn, const struct arbelprm_completion_queue_context *cqctx ) { return arbel_cmd ( arbel, ARBEL_HCR_IN_CMD ( ARBEL_HCR_SW2HW_CQ, 1, sizeof ( *cqctx ) ), 0, cqctx, cqn, NULL ); } static inline int arbel_cmd_hw2sw_cq ( struct arbel *arbel, unsigned long cqn, struct arbelprm_completion_queue_context *cqctx) { return arbel_cmd ( arbel, ARBEL_HCR_OUT_CMD ( ARBEL_HCR_HW2SW_CQ, 1, sizeof ( *cqctx ) ), 0, NULL, cqn, cqctx ); } static inline int arbel_cmd_rst2init_qpee ( struct arbel *arbel, unsigned long qpn, const struct arbelprm_qp_ee_state_transitions *ctx ){ return arbel_cmd ( arbel, ARBEL_HCR_IN_CMD ( ARBEL_HCR_RST2INIT_QPEE, 1, sizeof ( *ctx ) ), 0, ctx, qpn, NULL ); } static inline int arbel_cmd_init2rtr_qpee ( struct arbel *arbel, unsigned long qpn, const struct arbelprm_qp_ee_state_transitions *ctx ){ return arbel_cmd ( arbel, ARBEL_HCR_IN_CMD ( ARBEL_HCR_INIT2RTR_QPEE, 1, sizeof ( *ctx ) ), 0, ctx, qpn, NULL ); } static inline int arbel_cmd_rtr2rts_qpee ( struct arbel *arbel, unsigned long qpn, const struct arbelprm_qp_ee_state_transitions *ctx ) { return arbel_cmd ( arbel, ARBEL_HCR_IN_CMD ( ARBEL_HCR_RTR2RTS_QPEE, 1, sizeof ( *ctx ) ), 0, ctx, qpn, NULL ); } static inline int arbel_cmd_rts2rts_qp ( struct arbel *arbel, unsigned long qpn, const struct arbelprm_qp_ee_state_transitions *ctx ) { return arbel_cmd ( arbel, ARBEL_HCR_IN_CMD ( ARBEL_HCR_RTS2RTS_QPEE, 1, sizeof ( *ctx ) ), 0, ctx, qpn, NULL ); } static inline int arbel_cmd_2rst_qpee ( struct arbel *arbel, unsigned long qpn ) { return arbel_cmd ( arbel, ARBEL_HCR_VOID_CMD ( ARBEL_HCR_2RST_QPEE ), 0x03, NULL, qpn, NULL ); } static inline int arbel_cmd_mad_ifc ( struct arbel *arbel, unsigned int port, union arbelprm_mad *mad ) { return arbel_cmd ( arbel, ARBEL_HCR_INOUT_CMD ( ARBEL_HCR_MAD_IFC, 1, sizeof ( *mad ), 1, sizeof ( *mad ) ), 0x03, mad, port, mad ); } static inline int arbel_cmd_read_mgm ( struct arbel *arbel, unsigned int index, struct arbelprm_mgm_entry *mgm ) { return arbel_cmd ( arbel, ARBEL_HCR_OUT_CMD ( ARBEL_HCR_READ_MGM, 1, sizeof ( *mgm ) ), 0, NULL, index, mgm ); } static inline int arbel_cmd_write_mgm ( struct arbel *arbel, unsigned int index, const struct arbelprm_mgm_entry *mgm ) { return arbel_cmd ( arbel, ARBEL_HCR_IN_CMD ( ARBEL_HCR_WRITE_MGM, 1, sizeof ( *mgm ) ), 0, mgm, index, NULL ); } static inline int arbel_cmd_mgid_hash ( struct arbel *arbel, const struct ib_gid *gid, struct arbelprm_mgm_hash *hash ) { return arbel_cmd ( arbel, ARBEL_HCR_INOUT_CMD ( ARBEL_HCR_MGID_HASH, 1, sizeof ( *gid ), 0, sizeof ( *hash ) ), 0, gid, 0, hash ); } static inline int arbel_cmd_run_fw ( struct arbel *arbel ) { return arbel_cmd ( arbel, ARBEL_HCR_VOID_CMD ( ARBEL_HCR_RUN_FW ), 0, NULL, 0, NULL ); } static inline int arbel_cmd_disable_lam ( struct arbel *arbel ) { return arbel_cmd ( arbel, ARBEL_HCR_VOID_CMD ( ARBEL_HCR_DISABLE_LAM ), 0, NULL, 0, NULL ); } static inline int arbel_cmd_enable_lam ( struct arbel *arbel, struct arbelprm_access_lam *lam ) { return arbel_cmd ( arbel, ARBEL_HCR_OUT_CMD ( ARBEL_HCR_ENABLE_LAM, 1, sizeof ( *lam ) ), 1, NULL, 0, lam ); } static inline int arbel_cmd_unmap_icm ( struct arbel *arbel, unsigned int page_count ) { return arbel_cmd ( arbel, ARBEL_HCR_VOID_CMD ( ARBEL_HCR_UNMAP_ICM ), 0, NULL, page_count, NULL ); } static inline int arbel_cmd_map_icm ( struct arbel *arbel, const struct arbelprm_virtual_physical_mapping *map ) { return arbel_cmd ( arbel, ARBEL_HCR_IN_CMD ( ARBEL_HCR_MAP_ICM, 1, sizeof ( *map ) ), 0, map, 1, NULL ); } static inline int arbel_cmd_unmap_icm_aux ( struct arbel *arbel ) { return arbel_cmd ( arbel, ARBEL_HCR_VOID_CMD ( ARBEL_HCR_UNMAP_ICM_AUX ), 0, NULL, 0, NULL ); } static inline int arbel_cmd_map_icm_aux ( struct arbel *arbel, const struct arbelprm_virtual_physical_mapping *map ) { return arbel_cmd ( arbel, ARBEL_HCR_IN_CMD ( ARBEL_HCR_MAP_ICM_AUX, 1, sizeof ( *map ) ), 0, map, 1, NULL ); } static inline int arbel_cmd_set_icm_size ( struct arbel *arbel, const struct arbelprm_scalar_parameter *icm_size, struct arbelprm_scalar_parameter *icm_aux_size ) { return arbel_cmd ( arbel, ARBEL_HCR_INOUT_CMD ( ARBEL_HCR_SET_ICM_SIZE, 0, sizeof ( *icm_size ), 0, sizeof ( *icm_aux_size ) ), 0, icm_size, 0, icm_aux_size ); } static inline int arbel_cmd_unmap_fa ( struct arbel *arbel ) { return arbel_cmd ( arbel, ARBEL_HCR_VOID_CMD ( ARBEL_HCR_UNMAP_FA ), 0, NULL, 0, NULL ); } static inline int arbel_cmd_map_fa ( struct arbel *arbel, const struct arbelprm_virtual_physical_mapping *map ) { return arbel_cmd ( arbel, ARBEL_HCR_IN_CMD ( ARBEL_HCR_MAP_FA, 1, sizeof ( *map ) ), 0, map, 1, NULL ); } /*************************************************************************** * * MAD operations * *************************************************************************** */ /** * Issue management datagram * * @v ibdev Infiniband device * @v mad Management datagram * @ret rc Return status code */ static int arbel_mad ( struct ib_device *ibdev, union ib_mad *mad ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); union arbelprm_mad mad_ifc; int rc; linker_assert ( sizeof ( *mad ) == sizeof ( mad_ifc.mad ), mad_size_mismatch ); /* Copy in request packet */ memcpy ( &mad_ifc.mad, mad, sizeof ( mad_ifc.mad ) ); /* Issue MAD */ if ( ( rc = arbel_cmd_mad_ifc ( arbel, ibdev->port, &mad_ifc ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not issue MAD IFC: %s\n", arbel, strerror ( rc ) ); return rc; } /* Copy out reply packet */ memcpy ( mad, &mad_ifc.mad, sizeof ( *mad ) ); if ( mad->hdr.status != 0 ) { DBGC ( arbel, "Arbel %p MAD IFC status %04x\n", arbel, ntohs ( mad->hdr.status ) ); return -EIO; } return 0; } /*************************************************************************** * * Completion queue operations * *************************************************************************** */ /** * Create completion queue * * @v ibdev Infiniband device * @v cq Completion queue * @ret rc Return status code */ static int arbel_create_cq ( struct ib_device *ibdev, struct ib_completion_queue *cq ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); struct arbel_completion_queue *arbel_cq; struct arbelprm_completion_queue_context cqctx; struct arbelprm_cq_ci_db_record *ci_db_rec; struct arbelprm_cq_arm_db_record *arm_db_rec; int cqn_offset; unsigned int i; int rc; /* Find a free completion queue number */ cqn_offset = arbel_alloc_qn_offset ( arbel->cq_inuse, ARBEL_MAX_CQS ); if ( cqn_offset < 0 ) { DBGC ( arbel, "Arbel %p out of completion queues\n", arbel ); rc = cqn_offset; goto err_cqn_offset; } cq->cqn = ( arbel->limits.reserved_cqs + cqn_offset ); /* Allocate control structures */ arbel_cq = zalloc ( sizeof ( *arbel_cq ) ); if ( ! arbel_cq ) { rc = -ENOMEM; goto err_arbel_cq; } arbel_cq->ci_doorbell_idx = arbel_cq_ci_doorbell_idx ( cqn_offset ); arbel_cq->arm_doorbell_idx = arbel_cq_arm_doorbell_idx ( cqn_offset ); /* Allocate completion queue itself */ arbel_cq->cqe_size = ( cq->num_cqes * sizeof ( arbel_cq->cqe[0] ) ); arbel_cq->cqe = malloc_dma ( arbel_cq->cqe_size, sizeof ( arbel_cq->cqe[0] ) ); if ( ! arbel_cq->cqe ) { rc = -ENOMEM; goto err_cqe; } memset ( arbel_cq->cqe, 0, arbel_cq->cqe_size ); for ( i = 0 ; i < cq->num_cqes ; i++ ) { MLX_FILL_1 ( &arbel_cq->cqe[i].normal, 7, owner, 1 ); } barrier(); /* Initialise doorbell records */ ci_db_rec = &arbel->db_rec[arbel_cq->ci_doorbell_idx].cq_ci; MLX_FILL_1 ( ci_db_rec, 0, counter, 0 ); MLX_FILL_2 ( ci_db_rec, 1, res, ARBEL_UAR_RES_CQ_CI, cq_number, cq->cqn ); arm_db_rec = &arbel->db_rec[arbel_cq->arm_doorbell_idx].cq_arm; MLX_FILL_1 ( arm_db_rec, 0, counter, 0 ); MLX_FILL_2 ( arm_db_rec, 1, res, ARBEL_UAR_RES_CQ_ARM, cq_number, cq->cqn ); /* Hand queue over to hardware */ memset ( &cqctx, 0, sizeof ( cqctx ) ); MLX_FILL_1 ( &cqctx, 0, st, 0xa /* "Event fired" */ ); MLX_FILL_1 ( &cqctx, 2, start_address_l, virt_to_bus ( arbel_cq->cqe ) ); MLX_FILL_2 ( &cqctx, 3, usr_page, arbel->limits.reserved_uars, log_cq_size, fls ( cq->num_cqes - 1 ) ); MLX_FILL_1 ( &cqctx, 5, c_eqn, ARBEL_NO_EQ ); MLX_FILL_1 ( &cqctx, 6, pd, ARBEL_GLOBAL_PD ); MLX_FILL_1 ( &cqctx, 7, l_key, arbel->reserved_lkey ); MLX_FILL_1 ( &cqctx, 12, cqn, cq->cqn ); MLX_FILL_1 ( &cqctx, 13, cq_ci_db_record, arbel_cq->ci_doorbell_idx ); MLX_FILL_1 ( &cqctx, 14, cq_state_db_record, arbel_cq->arm_doorbell_idx ); if ( ( rc = arbel_cmd_sw2hw_cq ( arbel, cq->cqn, &cqctx ) ) != 0 ) { DBGC ( arbel, "Arbel %p SW2HW_CQ failed: %s\n", arbel, strerror ( rc ) ); goto err_sw2hw_cq; } DBGC ( arbel, "Arbel %p CQN %#lx ring at [%p,%p)\n", arbel, cq->cqn, arbel_cq->cqe, ( ( ( void * ) arbel_cq->cqe ) + arbel_cq->cqe_size ) ); ib_cq_set_drvdata ( cq, arbel_cq ); return 0; err_sw2hw_cq: MLX_FILL_1 ( ci_db_rec, 1, res, ARBEL_UAR_RES_NONE ); MLX_FILL_1 ( arm_db_rec, 1, res, ARBEL_UAR_RES_NONE ); free_dma ( arbel_cq->cqe, arbel_cq->cqe_size ); err_cqe: free ( arbel_cq ); err_arbel_cq: arbel_free_qn_offset ( arbel->cq_inuse, cqn_offset ); err_cqn_offset: return rc; } /** * Destroy completion queue * * @v ibdev Infiniband device * @v cq Completion queue */ static void arbel_destroy_cq ( struct ib_device *ibdev, struct ib_completion_queue *cq ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); struct arbel_completion_queue *arbel_cq = ib_cq_get_drvdata ( cq ); struct arbelprm_completion_queue_context cqctx; struct arbelprm_cq_ci_db_record *ci_db_rec; struct arbelprm_cq_arm_db_record *arm_db_rec; int cqn_offset; int rc; /* Take ownership back from hardware */ if ( ( rc = arbel_cmd_hw2sw_cq ( arbel, cq->cqn, &cqctx ) ) != 0 ) { DBGC ( arbel, "Arbel %p FATAL HW2SW_CQ failed on CQN %#lx: " "%s\n", arbel, cq->cqn, strerror ( rc ) ); /* Leak memory and return; at least we avoid corruption */ return; } /* Clear doorbell records */ ci_db_rec = &arbel->db_rec[arbel_cq->ci_doorbell_idx].cq_ci; arm_db_rec = &arbel->db_rec[arbel_cq->arm_doorbell_idx].cq_arm; MLX_FILL_1 ( ci_db_rec, 1, res, ARBEL_UAR_RES_NONE ); MLX_FILL_1 ( arm_db_rec, 1, res, ARBEL_UAR_RES_NONE ); /* Free memory */ free_dma ( arbel_cq->cqe, arbel_cq->cqe_size ); free ( arbel_cq ); /* Mark queue number as free */ cqn_offset = ( cq->cqn - arbel->limits.reserved_cqs ); arbel_free_qn_offset ( arbel->cq_inuse, cqn_offset ); ib_cq_set_drvdata ( cq, NULL ); } /*************************************************************************** * * Queue pair operations * *************************************************************************** */ /** * Create send work queue * * @v arbel_send_wq Send work queue * @v num_wqes Number of work queue entries * @ret rc Return status code */ static int arbel_create_send_wq ( struct arbel_send_work_queue *arbel_send_wq, unsigned int num_wqes ) { struct arbelprm_ud_send_wqe *wqe; struct arbelprm_ud_send_wqe *next_wqe; unsigned int wqe_idx_mask; unsigned int i; /* Allocate work queue */ arbel_send_wq->wqe_size = ( num_wqes * sizeof ( arbel_send_wq->wqe[0] ) ); arbel_send_wq->wqe = malloc_dma ( arbel_send_wq->wqe_size, sizeof ( arbel_send_wq->wqe[0] ) ); if ( ! arbel_send_wq->wqe ) return -ENOMEM; memset ( arbel_send_wq->wqe, 0, arbel_send_wq->wqe_size ); /* Link work queue entries */ wqe_idx_mask = ( num_wqes - 1 ); for ( i = 0 ; i < num_wqes ; i++ ) { wqe = &arbel_send_wq->wqe[i].ud; next_wqe = &arbel_send_wq->wqe[ ( i + 1 ) & wqe_idx_mask ].ud; MLX_FILL_1 ( &wqe->next, 0, nda_31_6, ( virt_to_bus ( next_wqe ) >> 6 ) ); } return 0; } /** * Create receive work queue * * @v arbel_recv_wq Receive work queue * @v num_wqes Number of work queue entries * @ret rc Return status code */ static int arbel_create_recv_wq ( struct arbel_recv_work_queue *arbel_recv_wq, unsigned int num_wqes ) { struct arbelprm_recv_wqe *wqe; struct arbelprm_recv_wqe *next_wqe; unsigned int wqe_idx_mask; size_t nds; unsigned int i; unsigned int j; /* Allocate work queue */ arbel_recv_wq->wqe_size = ( num_wqes * sizeof ( arbel_recv_wq->wqe[0] ) ); arbel_recv_wq->wqe = malloc_dma ( arbel_recv_wq->wqe_size, sizeof ( arbel_recv_wq->wqe[0] ) ); if ( ! arbel_recv_wq->wqe ) return -ENOMEM; memset ( arbel_recv_wq->wqe, 0, arbel_recv_wq->wqe_size ); /* Link work queue entries */ wqe_idx_mask = ( num_wqes - 1 ); nds = ( ( offsetof ( typeof ( *wqe ), data ) + sizeof ( wqe->data[0] ) ) >> 4 ); for ( i = 0 ; i < num_wqes ; i++ ) { wqe = &arbel_recv_wq->wqe[i].recv; next_wqe = &arbel_recv_wq->wqe[( i + 1 ) & wqe_idx_mask].recv; MLX_FILL_1 ( &wqe->next, 0, nda_31_6, ( virt_to_bus ( next_wqe ) >> 6 ) ); MLX_FILL_1 ( &wqe->next, 1, nds, ( sizeof ( *wqe ) / 16 ) ); for ( j = 0 ; ( ( ( void * ) &wqe->data[j] ) < ( ( void * ) ( wqe + 1 ) ) ) ; j++ ) { MLX_FILL_1 ( &wqe->data[j], 1, l_key, ARBEL_INVALID_LKEY ); } } return 0; } /** * Create queue pair * * @v ibdev Infiniband device * @v qp Queue pair * @ret rc Return status code */ static int arbel_create_qp ( struct ib_device *ibdev, struct ib_queue_pair *qp ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); struct arbel_queue_pair *arbel_qp; struct arbelprm_qp_ee_state_transitions qpctx; struct arbelprm_qp_db_record *send_db_rec; struct arbelprm_qp_db_record *recv_db_rec; int qpn_offset; int rc; /* Find a free queue pair number */ qpn_offset = arbel_alloc_qn_offset ( arbel->qp_inuse, ARBEL_MAX_QPS ); if ( qpn_offset < 0 ) { DBGC ( arbel, "Arbel %p out of queue pairs\n", arbel ); rc = qpn_offset; goto err_qpn_offset; } qp->qpn = ( ARBEL_QPN_BASE + arbel->limits.reserved_qps + qpn_offset ); /* Allocate control structures */ arbel_qp = zalloc ( sizeof ( *arbel_qp ) ); if ( ! arbel_qp ) { rc = -ENOMEM; goto err_arbel_qp; } arbel_qp->send.doorbell_idx = arbel_send_doorbell_idx ( qpn_offset ); arbel_qp->recv.doorbell_idx = arbel_recv_doorbell_idx ( qpn_offset ); /* Create send and receive work queues */ if ( ( rc = arbel_create_send_wq ( &arbel_qp->send, qp->send.num_wqes ) ) != 0 ) goto err_create_send_wq; if ( ( rc = arbel_create_recv_wq ( &arbel_qp->recv, qp->recv.num_wqes ) ) != 0 ) goto err_create_recv_wq; /* Initialise doorbell records */ send_db_rec = &arbel->db_rec[arbel_qp->send.doorbell_idx].qp; MLX_FILL_1 ( send_db_rec, 0, counter, 0 ); MLX_FILL_2 ( send_db_rec, 1, res, ARBEL_UAR_RES_SQ, qp_number, qp->qpn ); recv_db_rec = &arbel->db_rec[arbel_qp->recv.doorbell_idx].qp; MLX_FILL_1 ( recv_db_rec, 0, counter, 0 ); MLX_FILL_2 ( recv_db_rec, 1, res, ARBEL_UAR_RES_RQ, qp_number, qp->qpn ); /* Hand queue over to hardware */ memset ( &qpctx, 0, sizeof ( qpctx ) ); MLX_FILL_3 ( &qpctx, 2, qpc_eec_data.de, 1, qpc_eec_data.pm_state, 0x03 /* Always 0x03 for UD */, qpc_eec_data.st, ARBEL_ST_UD ); MLX_FILL_6 ( &qpctx, 4, qpc_eec_data.mtu, ARBEL_MTU_2048, qpc_eec_data.msg_max, 11 /* 2^11 = 2048 */, qpc_eec_data.log_rq_size, fls ( qp->recv.num_wqes - 1 ), qpc_eec_data.log_rq_stride, ( fls ( sizeof ( arbel_qp->recv.wqe[0] ) - 1 ) - 4 ), qpc_eec_data.log_sq_size, fls ( qp->send.num_wqes - 1 ), qpc_eec_data.log_sq_stride, ( fls ( sizeof ( arbel_qp->send.wqe[0] ) - 1 ) - 4 ) ); MLX_FILL_1 ( &qpctx, 5, qpc_eec_data.usr_page, arbel->limits.reserved_uars ); MLX_FILL_1 ( &qpctx, 10, qpc_eec_data.primary_address_path.port_number, ibdev->port ); MLX_FILL_1 ( &qpctx, 27, qpc_eec_data.pd, ARBEL_GLOBAL_PD ); MLX_FILL_1 ( &qpctx, 29, qpc_eec_data.wqe_lkey, arbel->reserved_lkey ); MLX_FILL_1 ( &qpctx, 30, qpc_eec_data.ssc, 1 ); MLX_FILL_1 ( &qpctx, 33, qpc_eec_data.cqn_snd, qp->send.cq->cqn ); MLX_FILL_1 ( &qpctx, 34, qpc_eec_data.snd_wqe_base_adr_l, ( virt_to_bus ( arbel_qp->send.wqe ) >> 6 ) ); MLX_FILL_1 ( &qpctx, 35, qpc_eec_data.snd_db_record_index, arbel_qp->send.doorbell_idx ); MLX_FILL_1 ( &qpctx, 38, qpc_eec_data.rsc, 1 ); MLX_FILL_1 ( &qpctx, 41, qpc_eec_data.cqn_rcv, qp->recv.cq->cqn ); MLX_FILL_1 ( &qpctx, 42, qpc_eec_data.rcv_wqe_base_adr_l, ( virt_to_bus ( arbel_qp->recv.wqe ) >> 6 ) ); MLX_FILL_1 ( &qpctx, 43, qpc_eec_data.rcv_db_record_index, arbel_qp->recv.doorbell_idx ); if ( ( rc = arbel_cmd_rst2init_qpee ( arbel, qp->qpn, &qpctx )) != 0 ){ DBGC ( arbel, "Arbel %p RST2INIT_QPEE failed: %s\n", arbel, strerror ( rc ) ); goto err_rst2init_qpee; } memset ( &qpctx, 0, sizeof ( qpctx ) ); MLX_FILL_2 ( &qpctx, 4, qpc_eec_data.mtu, ARBEL_MTU_2048, qpc_eec_data.msg_max, 11 /* 2^11 = 2048 */ ); if ( ( rc = arbel_cmd_init2rtr_qpee ( arbel, qp->qpn, &qpctx )) != 0 ){ DBGC ( arbel, "Arbel %p INIT2RTR_QPEE failed: %s\n", arbel, strerror ( rc ) ); goto err_init2rtr_qpee; } memset ( &qpctx, 0, sizeof ( qpctx ) ); if ( ( rc = arbel_cmd_rtr2rts_qpee ( arbel, qp->qpn, &qpctx ) ) != 0 ){ DBGC ( arbel, "Arbel %p RTR2RTS_QPEE failed: %s\n", arbel, strerror ( rc ) ); goto err_rtr2rts_qpee; } DBGC ( arbel, "Arbel %p QPN %#lx send ring at [%p,%p)\n", arbel, qp->qpn, arbel_qp->send.wqe, ( ( (void *) arbel_qp->send.wqe ) + arbel_qp->send.wqe_size ) ); DBGC ( arbel, "Arbel %p QPN %#lx receive ring at [%p,%p)\n", arbel, qp->qpn, arbel_qp->recv.wqe, ( ( (void *) arbel_qp->recv.wqe ) + arbel_qp->recv.wqe_size ) ); ib_qp_set_drvdata ( qp, arbel_qp ); return 0; err_rtr2rts_qpee: err_init2rtr_qpee: arbel_cmd_2rst_qpee ( arbel, qp->qpn ); err_rst2init_qpee: MLX_FILL_1 ( send_db_rec, 1, res, ARBEL_UAR_RES_NONE ); MLX_FILL_1 ( recv_db_rec, 1, res, ARBEL_UAR_RES_NONE ); free_dma ( arbel_qp->recv.wqe, arbel_qp->recv.wqe_size ); err_create_recv_wq: free_dma ( arbel_qp->send.wqe, arbel_qp->send.wqe_size ); err_create_send_wq: free ( arbel_qp ); err_arbel_qp: arbel_free_qn_offset ( arbel->qp_inuse, qpn_offset ); err_qpn_offset: return rc; } /** * Modify queue pair * * @v ibdev Infiniband device * @v qp Queue pair * @ret rc Return status code */ static int arbel_modify_qp ( struct ib_device *ibdev, struct ib_queue_pair *qp ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); struct arbelprm_qp_ee_state_transitions qpctx; int rc; /* Issue RTS2RTS_QP */ memset ( &qpctx, 0, sizeof ( qpctx ) ); MLX_FILL_1 ( &qpctx, 0, opt_param_mask, ARBEL_QPEE_OPT_PARAM_QKEY ); MLX_FILL_1 ( &qpctx, 44, qpc_eec_data.q_key, qp->qkey ); if ( ( rc = arbel_cmd_rts2rts_qp ( arbel, qp->qpn, &qpctx ) ) != 0 ){ DBGC ( arbel, "Arbel %p RTS2RTS_QP failed: %s\n", arbel, strerror ( rc ) ); return rc; } return 0; } /** * Destroy queue pair * * @v ibdev Infiniband device * @v qp Queue pair */ static void arbel_destroy_qp ( struct ib_device *ibdev, struct ib_queue_pair *qp ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); struct arbel_queue_pair *arbel_qp = ib_qp_get_drvdata ( qp ); struct arbelprm_qp_db_record *send_db_rec; struct arbelprm_qp_db_record *recv_db_rec; int qpn_offset; int rc; /* Take ownership back from hardware */ if ( ( rc = arbel_cmd_2rst_qpee ( arbel, qp->qpn ) ) != 0 ) { DBGC ( arbel, "Arbel %p FATAL 2RST_QPEE failed on QPN %#lx: " "%s\n", arbel, qp->qpn, strerror ( rc ) ); /* Leak memory and return; at least we avoid corruption */ return; } /* Clear doorbell records */ send_db_rec = &arbel->db_rec[arbel_qp->send.doorbell_idx].qp; recv_db_rec = &arbel->db_rec[arbel_qp->recv.doorbell_idx].qp; MLX_FILL_1 ( send_db_rec, 1, res, ARBEL_UAR_RES_NONE ); MLX_FILL_1 ( recv_db_rec, 1, res, ARBEL_UAR_RES_NONE ); /* Free memory */ free_dma ( arbel_qp->send.wqe, arbel_qp->send.wqe_size ); free_dma ( arbel_qp->recv.wqe, arbel_qp->recv.wqe_size ); free ( arbel_qp ); /* Mark queue number as free */ qpn_offset = ( qp->qpn - ARBEL_QPN_BASE - arbel->limits.reserved_qps ); arbel_free_qn_offset ( arbel->qp_inuse, qpn_offset ); ib_qp_set_drvdata ( qp, NULL ); } /*************************************************************************** * * Work request operations * *************************************************************************** */ /** * Ring doorbell register in UAR * * @v arbel Arbel device * @v db_reg Doorbell register structure * @v offset Address of doorbell */ static void arbel_ring_doorbell ( struct arbel *arbel, union arbelprm_doorbell_register *db_reg, unsigned int offset ) { DBGC2 ( arbel, "Arbel %p ringing doorbell %08x:%08x at %lx\n", arbel, db_reg->dword[0], db_reg->dword[1], virt_to_phys ( arbel->uar + offset ) ); barrier(); writel ( db_reg->dword[0], ( arbel->uar + offset + 0 ) ); barrier(); writel ( db_reg->dword[1], ( arbel->uar + offset + 4 ) ); } /** GID used for GID-less send work queue entries */ static const struct ib_gid arbel_no_gid = { { { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 0, 0, 0 } } }; /** * Post send work queue entry * * @v ibdev Infiniband device * @v qp Queue pair * @v av Address vector * @v iobuf I/O buffer * @ret rc Return status code */ static int arbel_post_send ( struct ib_device *ibdev, struct ib_queue_pair *qp, struct ib_address_vector *av, struct io_buffer *iobuf ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); struct arbel_queue_pair *arbel_qp = ib_qp_get_drvdata ( qp ); struct ib_work_queue *wq = &qp->send; struct arbel_send_work_queue *arbel_send_wq = &arbel_qp->send; struct arbelprm_ud_send_wqe *prev_wqe; struct arbelprm_ud_send_wqe *wqe; struct arbelprm_qp_db_record *qp_db_rec; union arbelprm_doorbell_register db_reg; const struct ib_gid *gid; unsigned int wqe_idx_mask; size_t nds; /* Allocate work queue entry */ wqe_idx_mask = ( wq->num_wqes - 1 ); if ( wq->iobufs[wq->next_idx & wqe_idx_mask] ) { DBGC ( arbel, "Arbel %p send queue full", arbel ); return -ENOBUFS; } wq->iobufs[wq->next_idx & wqe_idx_mask] = iobuf; prev_wqe = &arbel_send_wq->wqe[(wq->next_idx - 1) & wqe_idx_mask].ud; wqe = &arbel_send_wq->wqe[wq->next_idx & wqe_idx_mask].ud; /* Construct work queue entry */ MLX_FILL_1 ( &wqe->next, 1, always1, 1 ); memset ( &wqe->ctrl, 0, sizeof ( wqe->ctrl ) ); MLX_FILL_1 ( &wqe->ctrl, 0, always1, 1 ); memset ( &wqe->ud, 0, sizeof ( wqe->ud ) ); MLX_FILL_2 ( &wqe->ud, 0, ud_address_vector.pd, ARBEL_GLOBAL_PD, ud_address_vector.port_number, ibdev->port ); MLX_FILL_2 ( &wqe->ud, 1, ud_address_vector.rlid, av->lid, ud_address_vector.g, av->gid_present ); MLX_FILL_2 ( &wqe->ud, 2, ud_address_vector.max_stat_rate, ( ( av->rate >= 3 ) ? 0 : 1 ), ud_address_vector.msg, 3 ); MLX_FILL_1 ( &wqe->ud, 3, ud_address_vector.sl, av->sl ); gid = ( av->gid_present ? &av->gid : &arbel_no_gid ); memcpy ( &wqe->ud.u.dwords[4], gid, sizeof ( *gid ) ); MLX_FILL_1 ( &wqe->ud, 8, destination_qp, av->qpn ); MLX_FILL_1 ( &wqe->ud, 9, q_key, av->qkey ); MLX_FILL_1 ( &wqe->data[0], 0, byte_count, iob_len ( iobuf ) ); MLX_FILL_1 ( &wqe->data[0], 1, l_key, arbel->reserved_lkey ); MLX_FILL_1 ( &wqe->data[0], 3, local_address_l, virt_to_bus ( iobuf->data ) ); /* Update previous work queue entry's "next" field */ nds = ( ( offsetof ( typeof ( *wqe ), data ) + sizeof ( wqe->data[0] ) ) >> 4 ); MLX_SET ( &prev_wqe->next, nopcode, ARBEL_OPCODE_SEND ); MLX_FILL_3 ( &prev_wqe->next, 1, nds, nds, f, 1, always1, 1 ); /* Update doorbell record */ barrier(); qp_db_rec = &arbel->db_rec[arbel_send_wq->doorbell_idx].qp; MLX_FILL_1 ( qp_db_rec, 0, counter, ( ( wq->next_idx + 1 ) & 0xffff ) ); /* Ring doorbell register */ MLX_FILL_4 ( &db_reg.send, 0, nopcode, ARBEL_OPCODE_SEND, f, 1, wqe_counter, ( wq->next_idx & 0xffff ), wqe_cnt, 1 ); MLX_FILL_2 ( &db_reg.send, 1, nds, nds, qpn, qp->qpn ); arbel_ring_doorbell ( arbel, &db_reg, ARBEL_DB_POST_SND_OFFSET ); /* Update work queue's index */ wq->next_idx++; return 0; } /** * Post receive work queue entry * * @v ibdev Infiniband device * @v qp Queue pair * @v iobuf I/O buffer * @ret rc Return status code */ static int arbel_post_recv ( struct ib_device *ibdev, struct ib_queue_pair *qp, struct io_buffer *iobuf ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); struct arbel_queue_pair *arbel_qp = ib_qp_get_drvdata ( qp ); struct ib_work_queue *wq = &qp->recv; struct arbel_recv_work_queue *arbel_recv_wq = &arbel_qp->recv; struct arbelprm_recv_wqe *wqe; union arbelprm_doorbell_record *db_rec; unsigned int wqe_idx_mask; /* Allocate work queue entry */ wqe_idx_mask = ( wq->num_wqes - 1 ); if ( wq->iobufs[wq->next_idx & wqe_idx_mask] ) { DBGC ( arbel, "Arbel %p receive queue full", arbel ); return -ENOBUFS; } wq->iobufs[wq->next_idx & wqe_idx_mask] = iobuf; wqe = &arbel_recv_wq->wqe[wq->next_idx & wqe_idx_mask].recv; /* Construct work queue entry */ MLX_FILL_1 ( &wqe->data[0], 0, byte_count, iob_tailroom ( iobuf ) ); MLX_FILL_1 ( &wqe->data[0], 1, l_key, arbel->reserved_lkey ); MLX_FILL_1 ( &wqe->data[0], 3, local_address_l, virt_to_bus ( iobuf->data ) ); /* Update doorbell record */ barrier(); db_rec = &arbel->db_rec[arbel_recv_wq->doorbell_idx]; MLX_FILL_1 ( &db_rec->qp, 0, counter, ( ( wq->next_idx + 1 ) & 0xffff ) ); /* Update work queue's index */ wq->next_idx++; return 0; } /** * Handle completion * * @v ibdev Infiniband device * @v cq Completion queue * @v cqe Hardware completion queue entry * @ret rc Return status code */ static int arbel_complete ( struct ib_device *ibdev, struct ib_completion_queue *cq, union arbelprm_completion_entry *cqe ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); struct ib_work_queue *wq; struct ib_queue_pair *qp; struct arbel_queue_pair *arbel_qp; struct arbel_send_work_queue *arbel_send_wq; struct arbel_recv_work_queue *arbel_recv_wq; struct arbelprm_recv_wqe *recv_wqe; struct io_buffer *iobuf; struct ib_address_vector av; struct ib_global_route_header *grh; unsigned int opcode; unsigned long qpn; int is_send; unsigned long wqe_adr; unsigned int wqe_idx; size_t len; int rc = 0; /* Parse completion */ qpn = MLX_GET ( &cqe->normal, my_qpn ); is_send = MLX_GET ( &cqe->normal, s ); wqe_adr = ( MLX_GET ( &cqe->normal, wqe_adr ) << 6 ); opcode = MLX_GET ( &cqe->normal, opcode ); if ( opcode >= ARBEL_OPCODE_RECV_ERROR ) { /* "s" field is not valid for error opcodes */ is_send = ( opcode == ARBEL_OPCODE_SEND_ERROR ); DBGC ( arbel, "Arbel %p CPN %lx syndrome %x vendor %x\n", arbel, cq->cqn, MLX_GET ( &cqe->error, syndrome ), MLX_GET ( &cqe->error, vendor_code ) ); rc = -EIO; /* Don't return immediately; propagate error to completer */ } /* Identify work queue */ wq = ib_find_wq ( cq, qpn, is_send ); if ( ! wq ) { DBGC ( arbel, "Arbel %p CQN %lx unknown %s QPN %lx\n", arbel, cq->cqn, ( is_send ? "send" : "recv" ), qpn ); return -EIO; } qp = wq->qp; arbel_qp = ib_qp_get_drvdata ( qp ); arbel_send_wq = &arbel_qp->send; arbel_recv_wq = &arbel_qp->recv; /* Identify work queue entry index */ if ( is_send ) { wqe_idx = ( ( wqe_adr - virt_to_bus ( arbel_send_wq->wqe ) ) / sizeof ( arbel_send_wq->wqe[0] ) ); assert ( wqe_idx < qp->send.num_wqes ); } else { wqe_idx = ( ( wqe_adr - virt_to_bus ( arbel_recv_wq->wqe ) ) / sizeof ( arbel_recv_wq->wqe[0] ) ); assert ( wqe_idx < qp->recv.num_wqes ); } /* Identify I/O buffer */ iobuf = wq->iobufs[wqe_idx]; if ( ! iobuf ) { DBGC ( arbel, "Arbel %p CQN %lx QPN %lx empty WQE %x\n", arbel, cq->cqn, qpn, wqe_idx ); return -EIO; } wq->iobufs[wqe_idx] = NULL; if ( is_send ) { /* Hand off to completion handler */ ib_complete_send ( ibdev, qp, iobuf, rc ); } else { /* Set received length */ len = MLX_GET ( &cqe->normal, byte_cnt ); recv_wqe = &arbel_recv_wq->wqe[wqe_idx].recv; assert ( MLX_GET ( &recv_wqe->data[0], local_address_l ) == virt_to_bus ( iobuf->data ) ); assert ( MLX_GET ( &recv_wqe->data[0], byte_count ) == iob_tailroom ( iobuf ) ); MLX_FILL_1 ( &recv_wqe->data[0], 0, byte_count, 0 ); MLX_FILL_1 ( &recv_wqe->data[0], 1, l_key, ARBEL_INVALID_LKEY ); assert ( len <= iob_tailroom ( iobuf ) ); iob_put ( iobuf, len ); assert ( iob_len ( iobuf ) >= sizeof ( *grh ) ); grh = iobuf->data; iob_pull ( iobuf, sizeof ( *grh ) ); /* Construct address vector */ memset ( &av, 0, sizeof ( av ) ); av.qpn = MLX_GET ( &cqe->normal, rqpn ); av.lid = MLX_GET ( &cqe->normal, rlid ); av.sl = MLX_GET ( &cqe->normal, sl ); av.gid_present = MLX_GET ( &cqe->normal, g ); memcpy ( &av.gid, &grh->sgid, sizeof ( av.gid ) ); /* Hand off to completion handler */ ib_complete_recv ( ibdev, qp, &av, iobuf, rc ); } return rc; } /** * Poll completion queue * * @v ibdev Infiniband device * @v cq Completion queue */ static void arbel_poll_cq ( struct ib_device *ibdev, struct ib_completion_queue *cq ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); struct arbel_completion_queue *arbel_cq = ib_cq_get_drvdata ( cq ); struct arbelprm_cq_ci_db_record *ci_db_rec; union arbelprm_completion_entry *cqe; unsigned int cqe_idx_mask; int rc; while ( 1 ) { /* Look for completion entry */ cqe_idx_mask = ( cq->num_cqes - 1 ); cqe = &arbel_cq->cqe[cq->next_idx & cqe_idx_mask]; if ( MLX_GET ( &cqe->normal, owner ) != 0 ) { /* Entry still owned by hardware; end of poll */ break; } /* Handle completion */ if ( ( rc = arbel_complete ( ibdev, cq, cqe ) ) != 0 ) { DBGC ( arbel, "Arbel %p failed to complete: %s\n", arbel, strerror ( rc ) ); DBGC_HD ( arbel, cqe, sizeof ( *cqe ) ); } /* Return ownership to hardware */ MLX_FILL_1 ( &cqe->normal, 7, owner, 1 ); barrier(); /* Update completion queue's index */ cq->next_idx++; /* Update doorbell record */ ci_db_rec = &arbel->db_rec[arbel_cq->ci_doorbell_idx].cq_ci; MLX_FILL_1 ( ci_db_rec, 0, counter, ( cq->next_idx & 0xffffffffUL ) ); } } /*************************************************************************** * * Event queues * *************************************************************************** */ /** * Create event queue * * @v arbel Arbel device * @ret rc Return status code */ static int arbel_create_eq ( struct arbel *arbel ) { struct arbel_event_queue *arbel_eq = &arbel->eq; struct arbelprm_eqc eqctx; struct arbelprm_event_mask mask; unsigned int i; int rc; /* Select event queue number */ arbel_eq->eqn = arbel->limits.reserved_eqs; /* Calculate doorbell address */ arbel_eq->doorbell = ( arbel->eq_ci_doorbells + ARBEL_DB_EQ_OFFSET ( arbel_eq->eqn ) ); /* Allocate event queue itself */ arbel_eq->eqe_size = ( ARBEL_NUM_EQES * sizeof ( arbel_eq->eqe[0] ) ); arbel_eq->eqe = malloc_dma ( arbel_eq->eqe_size, sizeof ( arbel_eq->eqe[0] ) ); if ( ! arbel_eq->eqe ) { rc = -ENOMEM; goto err_eqe; } memset ( arbel_eq->eqe, 0, arbel_eq->eqe_size ); for ( i = 0 ; i < ARBEL_NUM_EQES ; i++ ) { MLX_FILL_1 ( &arbel_eq->eqe[i].generic, 7, owner, 1 ); } barrier(); /* Hand queue over to hardware */ memset ( &eqctx, 0, sizeof ( eqctx ) ); MLX_FILL_1 ( &eqctx, 0, st, 0xa /* "Fired" */ ); MLX_FILL_1 ( &eqctx, 2, start_address_l, virt_to_phys ( arbel_eq->eqe ) ); MLX_FILL_1 ( &eqctx, 3, log_eq_size, fls ( ARBEL_NUM_EQES - 1 ) ); MLX_FILL_1 ( &eqctx, 6, pd, ARBEL_GLOBAL_PD ); MLX_FILL_1 ( &eqctx, 7, lkey, arbel->reserved_lkey ); if ( ( rc = arbel_cmd_sw2hw_eq ( arbel, arbel_eq->eqn, &eqctx ) ) != 0 ) { DBGC ( arbel, "Arbel %p SW2HW_EQ failed: %s\n", arbel, strerror ( rc ) ); goto err_sw2hw_eq; } /* Map events to this event queue */ memset ( &mask, 0, sizeof ( mask ) ); MLX_FILL_1 ( &mask, 1, port_state_change, 1 ); if ( ( rc = arbel_cmd_map_eq ( arbel, ( ARBEL_MAP_EQ | arbel_eq->eqn ), &mask ) ) != 0 ) { DBGC ( arbel, "Arbel %p MAP_EQ failed: %s\n", arbel, strerror ( rc ) ); goto err_map_eq; } DBGC ( arbel, "Arbel %p EQN %#lx ring at [%p,%p])\n", arbel, arbel_eq->eqn, arbel_eq->eqe, ( ( ( void * ) arbel_eq->eqe ) + arbel_eq->eqe_size ) ); return 0; err_map_eq: arbel_cmd_hw2sw_eq ( arbel, arbel_eq->eqn, &eqctx ); err_sw2hw_eq: free_dma ( arbel_eq->eqe, arbel_eq->eqe_size ); err_eqe: memset ( arbel_eq, 0, sizeof ( *arbel_eq ) ); return rc; } /** * Destroy event queue * * @v arbel Arbel device */ static void arbel_destroy_eq ( struct arbel *arbel ) { struct arbel_event_queue *arbel_eq = &arbel->eq; struct arbelprm_eqc eqctx; struct arbelprm_event_mask mask; int rc; /* Unmap events from event queue */ memset ( &mask, 0, sizeof ( mask ) ); MLX_FILL_1 ( &mask, 1, port_state_change, 1 ); if ( ( rc = arbel_cmd_map_eq ( arbel, ( ARBEL_UNMAP_EQ | arbel_eq->eqn ), &mask ) ) != 0 ) { DBGC ( arbel, "Arbel %p FATAL MAP_EQ failed to unmap: %s\n", arbel, strerror ( rc ) ); /* Continue; HCA may die but system should survive */ } /* Take ownership back from hardware */ if ( ( rc = arbel_cmd_hw2sw_eq ( arbel, arbel_eq->eqn, &eqctx ) ) != 0 ) { DBGC ( arbel, "Arbel %p FATAL HW2SW_EQ failed: %s\n", arbel, strerror ( rc ) ); /* Leak memory and return; at least we avoid corruption */ return; } /* Free memory */ free_dma ( arbel_eq->eqe, arbel_eq->eqe_size ); memset ( arbel_eq, 0, sizeof ( *arbel_eq ) ); } /** * Handle port state event * * @v arbel Arbel device * @v eqe Port state change event queue entry */ static void arbel_event_port_state_change ( struct arbel *arbel, union arbelprm_event_entry *eqe){ unsigned int port; int link_up; /* Get port and link status */ port = ( MLX_GET ( &eqe->port_state_change, data.p ) - 1 ); link_up = ( MLX_GET ( &eqe->generic, event_sub_type ) & 0x04 ); DBGC ( arbel, "Arbel %p port %d link %s\n", arbel, ( port + 1 ), ( link_up ? "up" : "down" ) ); /* Sanity check */ if ( port >= ARBEL_NUM_PORTS ) { DBGC ( arbel, "Arbel %p port %d does not exist!\n", arbel, ( port + 1 ) ); return; } /* Update MAD parameters */ ib_smc_update ( arbel->ibdev[port], arbel_mad ); /* Notify Infiniband core of link state change */ ib_link_state_changed ( arbel->ibdev[port] ); } /** * Poll event queue * * @v ibdev Infiniband device */ static void arbel_poll_eq ( struct ib_device *ibdev ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); struct arbel_event_queue *arbel_eq = &arbel->eq; union arbelprm_event_entry *eqe; union arbelprm_eq_doorbell_register db_reg; unsigned int eqe_idx_mask; unsigned int event_type; while ( 1 ) { /* Look for event entry */ eqe_idx_mask = ( ARBEL_NUM_EQES - 1 ); eqe = &arbel_eq->eqe[arbel_eq->next_idx & eqe_idx_mask]; if ( MLX_GET ( &eqe->generic, owner ) != 0 ) { /* Entry still owned by hardware; end of poll */ break; } DBGCP ( arbel, "Arbel %p event:\n", arbel ); DBGCP_HD ( arbel, eqe, sizeof ( *eqe ) ); /* Handle event */ event_type = MLX_GET ( &eqe->generic, event_type ); switch ( event_type ) { case ARBEL_EV_PORT_STATE_CHANGE: arbel_event_port_state_change ( arbel, eqe ); break; default: DBGC ( arbel, "Arbel %p unrecognised event type " "%#x:\n", arbel, event_type ); DBGC_HD ( arbel, eqe, sizeof ( *eqe ) ); break; } /* Return ownership to hardware */ MLX_FILL_1 ( &eqe->generic, 7, owner, 1 ); barrier(); /* Update event queue's index */ arbel_eq->next_idx++; /* Ring doorbell */ MLX_FILL_1 ( &db_reg.ci, 0, ci, arbel_eq->next_idx ); DBGCP ( arbel, "Ringing doorbell %08lx with %08x\n", virt_to_phys ( arbel_eq->doorbell ), db_reg.dword[0] ); writel ( db_reg.dword[0], arbel_eq->doorbell ); } } /*************************************************************************** * * Infiniband link-layer operations * *************************************************************************** */ /** * Initialise Infiniband link * * @v ibdev Infiniband device * @ret rc Return status code */ static int arbel_open ( struct ib_device *ibdev ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); struct arbelprm_init_ib init_ib; int rc; memset ( &init_ib, 0, sizeof ( init_ib ) ); MLX_FILL_3 ( &init_ib, 0, mtu_cap, ARBEL_MTU_2048, port_width_cap, 3, vl_cap, 1 ); MLX_FILL_1 ( &init_ib, 1, max_gid, 1 ); MLX_FILL_1 ( &init_ib, 2, max_pkey, 64 ); if ( ( rc = arbel_cmd_init_ib ( arbel, ibdev->port, &init_ib ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not intialise IB: %s\n", arbel, strerror ( rc ) ); return rc; } /* Update MAD parameters */ ib_smc_update ( ibdev, arbel_mad ); return 0; } /** * Close Infiniband link * * @v ibdev Infiniband device */ static void arbel_close ( struct ib_device *ibdev ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); int rc; if ( ( rc = arbel_cmd_close_ib ( arbel, ibdev->port ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not close IB: %s\n", arbel, strerror ( rc ) ); /* Nothing we can do about this */ } } /*************************************************************************** * * Multicast group operations * *************************************************************************** */ /** * Attach to multicast group * * @v ibdev Infiniband device * @v qp Queue pair * @v gid Multicast GID * @ret rc Return status code */ static int arbel_mcast_attach ( struct ib_device *ibdev, struct ib_queue_pair *qp, struct ib_gid *gid ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); struct arbelprm_mgm_hash hash; struct arbelprm_mgm_entry mgm; unsigned int index; int rc; /* Generate hash table index */ if ( ( rc = arbel_cmd_mgid_hash ( arbel, gid, &hash ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not hash GID: %s\n", arbel, strerror ( rc ) ); return rc; } index = MLX_GET ( &hash, hash ); /* Check for existing hash table entry */ if ( ( rc = arbel_cmd_read_mgm ( arbel, index, &mgm ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not read MGM %#x: %s\n", arbel, index, strerror ( rc ) ); return rc; } if ( MLX_GET ( &mgm, mgmqp_0.qi ) != 0 ) { /* FIXME: this implementation allows only a single QP * per multicast group, and doesn't handle hash * collisions. Sufficient for IPoIB but may need to * be extended in future. */ DBGC ( arbel, "Arbel %p MGID index %#x already in use\n", arbel, index ); return -EBUSY; } /* Update hash table entry */ MLX_FILL_2 ( &mgm, 8, mgmqp_0.qpn_i, qp->qpn, mgmqp_0.qi, 1 ); memcpy ( &mgm.u.dwords[4], gid, sizeof ( *gid ) ); if ( ( rc = arbel_cmd_write_mgm ( arbel, index, &mgm ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not write MGM %#x: %s\n", arbel, index, strerror ( rc ) ); return rc; } return 0; } /** * Detach from multicast group * * @v ibdev Infiniband device * @v qp Queue pair * @v gid Multicast GID */ static void arbel_mcast_detach ( struct ib_device *ibdev, struct ib_queue_pair *qp __unused, struct ib_gid *gid ) { struct arbel *arbel = ib_get_drvdata ( ibdev ); struct arbelprm_mgm_hash hash; struct arbelprm_mgm_entry mgm; unsigned int index; int rc; /* Generate hash table index */ if ( ( rc = arbel_cmd_mgid_hash ( arbel, gid, &hash ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not hash GID: %s\n", arbel, strerror ( rc ) ); return; } index = MLX_GET ( &hash, hash ); /* Clear hash table entry */ memset ( &mgm, 0, sizeof ( mgm ) ); if ( ( rc = arbel_cmd_write_mgm ( arbel, index, &mgm ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not write MGM %#x: %s\n", arbel, index, strerror ( rc ) ); return; } } /** Arbel Infiniband operations */ static struct ib_device_operations arbel_ib_operations = { .create_cq = arbel_create_cq, .destroy_cq = arbel_destroy_cq, .create_qp = arbel_create_qp, .modify_qp = arbel_modify_qp, .destroy_qp = arbel_destroy_qp, .post_send = arbel_post_send, .post_recv = arbel_post_recv, .poll_cq = arbel_poll_cq, .poll_eq = arbel_poll_eq, .open = arbel_open, .close = arbel_close, .mcast_attach = arbel_mcast_attach, .mcast_detach = arbel_mcast_detach, }; /*************************************************************************** * * Firmware control * *************************************************************************** */ /** * Start firmware running * * @v arbel Arbel device * @ret rc Return status code */ static int arbel_start_firmware ( struct arbel *arbel ) { struct arbelprm_query_fw fw; struct arbelprm_access_lam lam; struct arbelprm_virtual_physical_mapping map_fa; unsigned int fw_pages; unsigned int log2_fw_pages; size_t fw_size; physaddr_t fw_base; uint64_t eq_set_ci_base_addr; int rc; /* Get firmware parameters */ if ( ( rc = arbel_cmd_query_fw ( arbel, &fw ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not query firmware: %s\n", arbel, strerror ( rc ) ); goto err_query_fw; } DBGC ( arbel, "Arbel %p firmware version %d.%d.%d\n", arbel, MLX_GET ( &fw, fw_rev_major ), MLX_GET ( &fw, fw_rev_minor ), MLX_GET ( &fw, fw_rev_subminor ) ); fw_pages = MLX_GET ( &fw, fw_pages ); log2_fw_pages = fls ( fw_pages - 1 ); fw_pages = ( 1 << log2_fw_pages ); DBGC ( arbel, "Arbel %p requires %d kB for firmware\n", arbel, ( fw_pages * 4 ) ); eq_set_ci_base_addr = ( ( (uint64_t) MLX_GET ( &fw, eq_set_ci_base_addr_h ) << 32 ) | ( (uint64_t) MLX_GET ( &fw, eq_set_ci_base_addr_l ) ) ); arbel->eq_ci_doorbells = ioremap ( eq_set_ci_base_addr, 0x200 ); /* Enable locally-attached memory. Ignore failure; there may * be no attached memory. */ arbel_cmd_enable_lam ( arbel, &lam ); /* Allocate firmware pages and map firmware area */ fw_size = ( fw_pages * 4096 ); arbel->firmware_area = umalloc ( fw_size * 2 ); if ( ! arbel->firmware_area ) { rc = -ENOMEM; goto err_alloc_fa; } fw_base = ( user_to_phys ( arbel->firmware_area, fw_size ) & ~( fw_size - 1 ) ); DBGC ( arbel, "Arbel %p firmware area at physical [%lx,%lx)\n", arbel, fw_base, ( fw_base + fw_size ) ); memset ( &map_fa, 0, sizeof ( map_fa ) ); MLX_FILL_2 ( &map_fa, 3, log2size, log2_fw_pages, pa_l, ( fw_base >> 12 ) ); if ( ( rc = arbel_cmd_map_fa ( arbel, &map_fa ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not map firmware: %s\n", arbel, strerror ( rc ) ); goto err_map_fa; } /* Start firmware */ if ( ( rc = arbel_cmd_run_fw ( arbel ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not run firmware: %s\n", arbel, strerror ( rc ) ); goto err_run_fw; } DBGC ( arbel, "Arbel %p firmware started\n", arbel ); return 0; err_run_fw: arbel_cmd_unmap_fa ( arbel ); err_map_fa: ufree ( arbel->firmware_area ); arbel->firmware_area = UNULL; err_alloc_fa: err_query_fw: return rc; } /** * Stop firmware running * * @v arbel Arbel device */ static void arbel_stop_firmware ( struct arbel *arbel ) { int rc; if ( ( rc = arbel_cmd_unmap_fa ( arbel ) ) != 0 ) { DBGC ( arbel, "Arbel %p FATAL could not stop firmware: %s\n", arbel, strerror ( rc ) ); /* Leak memory and return; at least we avoid corruption */ return; } ufree ( arbel->firmware_area ); arbel->firmware_area = UNULL; } /*************************************************************************** * * Infinihost Context Memory management * *************************************************************************** */ /** * Get device limits * * @v arbel Arbel device * @ret rc Return status code */ static int arbel_get_limits ( struct arbel *arbel ) { struct arbelprm_query_dev_lim dev_lim; int rc; if ( ( rc = arbel_cmd_query_dev_lim ( arbel, &dev_lim ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not get device limits: %s\n", arbel, strerror ( rc ) ); return rc; } arbel->limits.reserved_qps = ( 1 << MLX_GET ( &dev_lim, log2_rsvd_qps ) ); arbel->limits.qpc_entry_size = MLX_GET ( &dev_lim, qpc_entry_sz ); arbel->limits.eqpc_entry_size = MLX_GET ( &dev_lim, eqpc_entry_sz ); arbel->limits.reserved_srqs = ( 1 << MLX_GET ( &dev_lim, log2_rsvd_srqs ) ); arbel->limits.srqc_entry_size = MLX_GET ( &dev_lim, srq_entry_sz ); arbel->limits.reserved_ees = ( 1 << MLX_GET ( &dev_lim, log2_rsvd_ees ) ); arbel->limits.eec_entry_size = MLX_GET ( &dev_lim, eec_entry_sz ); arbel->limits.eeec_entry_size = MLX_GET ( &dev_lim, eeec_entry_sz ); arbel->limits.reserved_cqs = ( 1 << MLX_GET ( &dev_lim, log2_rsvd_cqs ) ); arbel->limits.cqc_entry_size = MLX_GET ( &dev_lim, cqc_entry_sz ); arbel->limits.reserved_eqs = MLX_GET ( &dev_lim, num_rsvd_eqs ); arbel->limits.reserved_mtts = ( 1 << MLX_GET ( &dev_lim, log2_rsvd_mtts ) ); arbel->limits.mtt_entry_size = MLX_GET ( &dev_lim, mtt_entry_sz ); arbel->limits.reserved_mrws = ( 1 << MLX_GET ( &dev_lim, log2_rsvd_mrws ) ); arbel->limits.mpt_entry_size = MLX_GET ( &dev_lim, mpt_entry_sz ); arbel->limits.reserved_rdbs = ( 1 << MLX_GET ( &dev_lim, log2_rsvd_rdbs ) ); arbel->limits.eqc_entry_size = MLX_GET ( &dev_lim, eqc_entry_sz ); arbel->limits.reserved_uars = MLX_GET ( &dev_lim, num_rsvd_uars ); return 0; } /** * Get ICM usage * * @v log_num_entries Log2 of the number of entries * @v entry_size Entry size * @ret usage Usage size in ICM */ static size_t icm_usage ( unsigned int log_num_entries, size_t entry_size ) { size_t usage; usage = ( ( 1 << log_num_entries ) * entry_size ); usage = ( ( usage + 4095 ) & ~4095 ); return usage; } /** * Allocate ICM * * @v arbel Arbel device * @v init_hca INIT_HCA structure to fill in * @ret rc Return status code */ static int arbel_alloc_icm ( struct arbel *arbel, struct arbelprm_init_hca *init_hca ) { struct arbelprm_scalar_parameter icm_size; struct arbelprm_scalar_parameter icm_aux_size; struct arbelprm_virtual_physical_mapping map_icm_aux; struct arbelprm_virtual_physical_mapping map_icm; union arbelprm_doorbell_record *db_rec; size_t icm_offset = 0; unsigned int log_num_qps, log_num_srqs, log_num_ees, log_num_cqs; unsigned int log_num_mtts, log_num_mpts, log_num_rdbs, log_num_eqs; int rc; icm_offset = ( ( arbel->limits.reserved_uars + 1 ) << 12 ); /* Queue pair contexts */ log_num_qps = fls ( arbel->limits.reserved_qps + ARBEL_MAX_QPS - 1 ); MLX_FILL_2 ( init_hca, 13, qpc_eec_cqc_eqc_rdb_parameters.qpc_base_addr_l, ( icm_offset >> 7 ), qpc_eec_cqc_eqc_rdb_parameters.log_num_of_qp, log_num_qps ); DBGC ( arbel, "Arbel %p ICM QPC base = %zx\n", arbel, icm_offset ); icm_offset += icm_usage ( log_num_qps, arbel->limits.qpc_entry_size ); /* Extended queue pair contexts */ MLX_FILL_1 ( init_hca, 25, qpc_eec_cqc_eqc_rdb_parameters.eqpc_base_addr_l, icm_offset ); DBGC ( arbel, "Arbel %p ICM EQPC base = %zx\n", arbel, icm_offset ); // icm_offset += icm_usage ( log_num_qps, arbel->limits.eqpc_entry_size ); icm_offset += icm_usage ( log_num_qps, arbel->limits.qpc_entry_size ); /* Shared receive queue contexts */ log_num_srqs = fls ( arbel->limits.reserved_srqs - 1 ); MLX_FILL_2 ( init_hca, 19, qpc_eec_cqc_eqc_rdb_parameters.srqc_base_addr_l, ( icm_offset >> 5 ), qpc_eec_cqc_eqc_rdb_parameters.log_num_of_srq, log_num_srqs ); DBGC ( arbel, "Arbel %p ICM SRQC base = %zx\n", arbel, icm_offset ); icm_offset += icm_usage ( log_num_srqs, arbel->limits.srqc_entry_size ); /* End-to-end contexts */ log_num_ees = fls ( arbel->limits.reserved_ees - 1 ); MLX_FILL_2 ( init_hca, 17, qpc_eec_cqc_eqc_rdb_parameters.eec_base_addr_l, ( icm_offset >> 7 ), qpc_eec_cqc_eqc_rdb_parameters.log_num_of_ee, log_num_ees ); DBGC ( arbel, "Arbel %p ICM EEC base = %zx\n", arbel, icm_offset ); icm_offset += icm_usage ( log_num_ees, arbel->limits.eec_entry_size ); /* Extended end-to-end contexts */ MLX_FILL_1 ( init_hca, 29, qpc_eec_cqc_eqc_rdb_parameters.eeec_base_addr_l, icm_offset ); DBGC ( arbel, "Arbel %p ICM EEEC base = %zx\n", arbel, icm_offset ); icm_offset += icm_usage ( log_num_ees, arbel->limits.eeec_entry_size ); /* Completion queue contexts */ log_num_cqs = fls ( arbel->limits.reserved_cqs + ARBEL_MAX_CQS - 1 ); MLX_FILL_2 ( init_hca, 21, qpc_eec_cqc_eqc_rdb_parameters.cqc_base_addr_l, ( icm_offset >> 6 ), qpc_eec_cqc_eqc_rdb_parameters.log_num_of_cq, log_num_cqs ); DBGC ( arbel, "Arbel %p ICM CQC base = %zx\n", arbel, icm_offset ); icm_offset += icm_usage ( log_num_cqs, arbel->limits.cqc_entry_size ); /* Memory translation table */ log_num_mtts = fls ( arbel->limits.reserved_mtts - 1 ); MLX_FILL_1 ( init_hca, 65, tpt_parameters.mtt_base_addr_l, icm_offset ); DBGC ( arbel, "Arbel %p ICM MTT base = %zx\n", arbel, icm_offset ); icm_offset += icm_usage ( log_num_mtts, arbel->limits.mtt_entry_size ); /* Memory protection table */ log_num_mpts = fls ( arbel->limits.reserved_mrws + 1 - 1 ); MLX_FILL_1 ( init_hca, 61, tpt_parameters.mpt_base_adr_l, icm_offset ); MLX_FILL_1 ( init_hca, 62, tpt_parameters.log_mpt_sz, log_num_mpts ); DBGC ( arbel, "Arbel %p ICM MTT base = %zx\n", arbel, icm_offset ); icm_offset += icm_usage ( log_num_mpts, arbel->limits.mpt_entry_size ); /* RDMA something or other */ log_num_rdbs = fls ( arbel->limits.reserved_rdbs - 1 ); MLX_FILL_1 ( init_hca, 37, qpc_eec_cqc_eqc_rdb_parameters.rdb_base_addr_l, icm_offset ); DBGC ( arbel, "Arbel %p ICM RDB base = %zx\n", arbel, icm_offset ); icm_offset += icm_usage ( log_num_rdbs, 32 ); /* Event queue contexts */ log_num_eqs = fls ( arbel->limits.reserved_eqs + ARBEL_MAX_EQS - 1 ); MLX_FILL_2 ( init_hca, 33, qpc_eec_cqc_eqc_rdb_parameters.eqc_base_addr_l, ( icm_offset >> 6 ), qpc_eec_cqc_eqc_rdb_parameters.log_num_eq, log_num_eqs ); DBGC ( arbel, "Arbel %p ICM EQ base = %zx\n", arbel, icm_offset ); icm_offset += ( ( 1 << log_num_eqs ) * arbel->limits.eqc_entry_size ); /* Multicast table */ MLX_FILL_1 ( init_hca, 49, multicast_parameters.mc_base_addr_l, icm_offset ); MLX_FILL_1 ( init_hca, 52, multicast_parameters.log_mc_table_entry_sz, fls ( sizeof ( struct arbelprm_mgm_entry ) - 1 ) ); MLX_FILL_1 ( init_hca, 53, multicast_parameters.mc_table_hash_sz, 8 ); MLX_FILL_1 ( init_hca, 54, multicast_parameters.log_mc_table_sz, 3 ); DBGC ( arbel, "Arbel %p ICM MC base = %zx\n", arbel, icm_offset ); icm_offset += ( 8 * sizeof ( struct arbelprm_mgm_entry ) ); arbel->icm_len = icm_offset; arbel->icm_len = ( ( arbel->icm_len + 4095 ) & ~4095 ); /* Get ICM auxiliary area size */ memset ( &icm_size, 0, sizeof ( icm_size ) ); MLX_FILL_1 ( &icm_size, 1, value, arbel->icm_len ); if ( ( rc = arbel_cmd_set_icm_size ( arbel, &icm_size, &icm_aux_size ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not set ICM size: %s\n", arbel, strerror ( rc ) ); goto err_set_icm_size; } arbel->icm_aux_len = ( MLX_GET ( &icm_aux_size, value ) * 4096 ); /* Allocate ICM data and auxiliary area */ DBGC ( arbel, "Arbel %p requires %zd kB ICM and %zd kB AUX ICM\n", arbel, ( arbel->icm_len / 1024 ), ( arbel->icm_aux_len / 1024 ) ); arbel->icm = umalloc ( arbel->icm_len + arbel->icm_aux_len ); if ( ! arbel->icm ) { rc = -ENOMEM; goto err_alloc; } /* Map ICM auxiliary area */ memset ( &map_icm_aux, 0, sizeof ( map_icm_aux ) ); MLX_FILL_2 ( &map_icm_aux, 3, log2size, fls ( ( arbel->icm_aux_len / 4096 ) - 1 ), pa_l, ( user_to_phys ( arbel->icm, arbel->icm_len ) >> 12 ) ); if ( ( rc = arbel_cmd_map_icm_aux ( arbel, &map_icm_aux ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not map AUX ICM: %s\n", arbel, strerror ( rc ) ); goto err_map_icm_aux; } /* MAP ICM area */ memset ( &map_icm, 0, sizeof ( map_icm ) ); MLX_FILL_2 ( &map_icm, 3, log2size, fls ( ( arbel->icm_len / 4096 ) - 1 ), pa_l, ( user_to_phys ( arbel->icm, 0 ) >> 12 ) ); if ( ( rc = arbel_cmd_map_icm ( arbel, &map_icm ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not map ICM: %s\n", arbel, strerror ( rc ) ); goto err_map_icm; } /* Initialise UAR context */ arbel->db_rec = phys_to_virt ( user_to_phys ( arbel->icm, 0 ) + ( arbel->limits.reserved_uars * ARBEL_PAGE_SIZE ) ); memset ( arbel->db_rec, 0, ARBEL_PAGE_SIZE ); db_rec = &arbel->db_rec[ARBEL_GROUP_SEPARATOR_DOORBELL]; MLX_FILL_1 ( &db_rec->qp, 1, res, ARBEL_UAR_RES_GROUP_SEP ); return 0; arbel_cmd_unmap_icm ( arbel, ( arbel->icm_len / 4096 ) ); err_map_icm: arbel_cmd_unmap_icm_aux ( arbel ); err_map_icm_aux: ufree ( arbel->icm ); arbel->icm = UNULL; err_alloc: err_set_icm_size: return rc; } /** * Free ICM * * @v arbel Arbel device */ static void arbel_free_icm ( struct arbel *arbel ) { arbel_cmd_unmap_icm ( arbel, ( arbel->icm_len / 4096 ) ); arbel_cmd_unmap_icm_aux ( arbel ); ufree ( arbel->icm ); arbel->icm = UNULL; } /*************************************************************************** * * PCI interface * *************************************************************************** */ /** * Set up memory protection table * * @v arbel Arbel device * @ret rc Return status code */ static int arbel_setup_mpt ( struct arbel *arbel ) { struct arbelprm_mpt mpt; uint32_t key; int rc; /* Derive key */ key = ( arbel->limits.reserved_mrws | ARBEL_MKEY_PREFIX ); arbel->reserved_lkey = ( ( key << 8 ) | ( key >> 24 ) ); /* Initialise memory protection table */ memset ( &mpt, 0, sizeof ( mpt ) ); MLX_FILL_4 ( &mpt, 0, r_w, 1, pa, 1, lr, 1, lw, 1 ); MLX_FILL_1 ( &mpt, 2, mem_key, key ); MLX_FILL_1 ( &mpt, 3, pd, ARBEL_GLOBAL_PD ); MLX_FILL_1 ( &mpt, 6, reg_wnd_len_h, 0xffffffffUL ); MLX_FILL_1 ( &mpt, 7, reg_wnd_len_l, 0xffffffffUL ); if ( ( rc = arbel_cmd_sw2hw_mpt ( arbel, arbel->limits.reserved_mrws, &mpt ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not set up MPT: %s\n", arbel, strerror ( rc ) ); return rc; } return 0; } /** * Probe PCI device * * @v pci PCI device * @v id PCI ID * @ret rc Return status code */ static int arbel_probe ( struct pci_device *pci, const struct pci_device_id *id __unused ) { struct arbel *arbel; struct ib_device *ibdev; struct arbelprm_init_hca init_hca; int i; int rc; /* Allocate Arbel device */ arbel = zalloc ( sizeof ( *arbel ) ); if ( ! arbel ) { rc = -ENOMEM; goto err_alloc_arbel; } pci_set_drvdata ( pci, arbel ); /* Allocate Infiniband devices */ for ( i = 0 ; i < ARBEL_NUM_PORTS ; i++ ) { ibdev = alloc_ibdev ( 0 ); if ( ! ibdev ) { rc = -ENOMEM; goto err_alloc_ibdev; } arbel->ibdev[i] = ibdev; ibdev->op = &arbel_ib_operations; ibdev->dev = &pci->dev; ibdev->port = ( ARBEL_PORT_BASE + i ); ib_set_drvdata ( ibdev, arbel ); } /* Fix up PCI device */ adjust_pci_device ( pci ); /* Get PCI BARs */ arbel->config = ioremap ( pci_bar_start ( pci, ARBEL_PCI_CONFIG_BAR ), ARBEL_PCI_CONFIG_BAR_SIZE ); arbel->uar = ioremap ( ( pci_bar_start ( pci, ARBEL_PCI_UAR_BAR ) + ARBEL_PCI_UAR_IDX * ARBEL_PCI_UAR_SIZE ), ARBEL_PCI_UAR_SIZE ); /* Allocate space for mailboxes */ arbel->mailbox_in = malloc_dma ( ARBEL_MBOX_SIZE, ARBEL_MBOX_ALIGN ); if ( ! arbel->mailbox_in ) { rc = -ENOMEM; goto err_mailbox_in; } arbel->mailbox_out = malloc_dma ( ARBEL_MBOX_SIZE, ARBEL_MBOX_ALIGN ); if ( ! arbel->mailbox_out ) { rc = -ENOMEM; goto err_mailbox_out; } /* Start firmware */ if ( ( rc = arbel_start_firmware ( arbel ) ) != 0 ) goto err_start_firmware; /* Get device limits */ if ( ( rc = arbel_get_limits ( arbel ) ) != 0 ) goto err_get_limits; /* Allocate ICM */ memset ( &init_hca, 0, sizeof ( init_hca ) ); if ( ( rc = arbel_alloc_icm ( arbel, &init_hca ) ) != 0 ) goto err_alloc_icm; /* Initialise HCA */ MLX_FILL_1 ( &init_hca, 74, uar_parameters.log_max_uars, 1 ); if ( ( rc = arbel_cmd_init_hca ( arbel, &init_hca ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not initialise HCA: %s\n", arbel, strerror ( rc ) ); goto err_init_hca; } /* Set up memory protection */ if ( ( rc = arbel_setup_mpt ( arbel ) ) != 0 ) goto err_setup_mpt; /* Set up event queue */ if ( ( rc = arbel_create_eq ( arbel ) ) != 0 ) goto err_create_eq; /* Update MAD parameters */ for ( i = 0 ; i < ARBEL_NUM_PORTS ; i++ ) ib_smc_update ( arbel->ibdev[i], arbel_mad ); /* Register Infiniband devices */ for ( i = 0 ; i < ARBEL_NUM_PORTS ; i++ ) { if ( ( rc = register_ibdev ( arbel->ibdev[i] ) ) != 0 ) { DBGC ( arbel, "Arbel %p could not register IB " "device: %s\n", arbel, strerror ( rc ) ); goto err_register_ibdev; } } return 0; i = ARBEL_NUM_PORTS; err_register_ibdev: for ( i-- ; i >= 0 ; i-- ) unregister_ibdev ( arbel->ibdev[i] ); arbel_destroy_eq ( arbel ); err_create_eq: err_setup_mpt: arbel_cmd_close_hca ( arbel ); err_init_hca: arbel_free_icm ( arbel ); err_alloc_icm: err_get_limits: arbel_stop_firmware ( arbel ); err_start_firmware: free_dma ( arbel->mailbox_out, ARBEL_MBOX_SIZE ); err_mailbox_out: free_dma ( arbel->mailbox_in, ARBEL_MBOX_SIZE ); err_mailbox_in: i = ARBEL_NUM_PORTS; err_alloc_ibdev: for ( i-- ; i >= 0 ; i-- ) ibdev_put ( arbel->ibdev[i] ); free ( arbel ); err_alloc_arbel: return rc; } /** * Remove PCI device * * @v pci PCI device */ static void arbel_remove ( struct pci_device *pci ) { struct arbel *arbel = pci_get_drvdata ( pci ); int i; for ( i = ( ARBEL_NUM_PORTS - 1 ) ; i >= 0 ; i-- ) unregister_ibdev ( arbel->ibdev[i] ); arbel_destroy_eq ( arbel ); arbel_cmd_close_hca ( arbel ); arbel_free_icm ( arbel ); arbel_stop_firmware ( arbel ); arbel_stop_firmware ( arbel ); free_dma ( arbel->mailbox_out, ARBEL_MBOX_SIZE ); free_dma ( arbel->mailbox_in, ARBEL_MBOX_SIZE ); for ( i = ( ARBEL_NUM_PORTS - 1 ) ; i >= 0 ; i-- ) ibdev_put ( arbel->ibdev[i] ); free ( arbel ); } static struct pci_device_id arbel_nics[] = { PCI_ROM ( 0x15b3, 0x6282, "mt25218", "MT25218 HCA driver", 0 ), PCI_ROM ( 0x15b3, 0x6274, "mt25204", "MT25204 HCA driver", 0 ), }; struct pci_driver arbel_driver __pci_driver = { .ids = arbel_nics, .id_count = ( sizeof ( arbel_nics ) / sizeof ( arbel_nics[0] ) ), .probe = arbel_probe, .remove = arbel_remove, };