/***************************************************************************** * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END * * Copyright 2014 QLogic Corporation * The contents of this file are subject to the terms of the * QLogic End User License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the License at * http://www.qlogic.com/Resources/Documents/DriverDownloadHelp/ * QLogic_End_User_Software_License.txt * See the License for the specific language governing permissions * and limitations under the License. * *****************************************************************************/ #include // portable integer type of the pointer size for current platform (64/32) typedef u64_t mm_int_ptr_t; typedef int mm_spin_lock_t; #define mm_read_barrier_imp() #define mm_write_barrier_imp() #define mm_barrier_imp() static __inline void mm_atomic_set_imp(u32_t *p, u32_t v) { *p = v; } static __inline s32_t mm_atomic_dec_imp(u32_t *p) { return --(*p); } static __inline s32_t mm_atomic_inc_imp(u32_t *p) { return ++(*p); } #define MM_WRITE_DOORBELL_IMP(PDEV, BAR, CID, VAL) \ LM_BAR_WR32_ADDRESS((PDEV), ((u8_t *)PFDEV(PDEV)->context_info->array[VF_TO_PF_CID((PDEV),(CID))].cid_resc.mapped_cid_bar_addr + (DPM_TRIGER_TYPE)), (VAL)) #define MM_REGISTER_LPME_IMP(_pdev, _func, _b_fw_access, _b_queue_for_fw) \ (LM_STATUS_SUCCESS) #define MM_ACQUIRE_SPQ_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Acquiring global SPQ lock\n"); #define MM_RELEASE_SPQ_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Releasing global SPQ lock\n"); #define MM_ACQUIRE_SPQ_LOCK_DPC_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Acquiring global SPQ lock\n"); #define MM_RELEASE_SPQ_LOCK_DPC_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Releasing global SPQ lock\n"); #define MM_ACQUIRE_CID_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Acquiring global CID lock\n"); #define MM_RELEASE_CID_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Releasing global CID lock\n"); #define MM_ACQUIRE_REQUEST_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Acquiring ramrod lock\n"); #define MM_RELEASE_REQUEST_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Releasing ramrod lock\n"); #define MM_ACQUIRE_PHY_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Acquiring phy lock\n"); #define MM_RELEASE_PHY_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Releasing phy lock\n"); #define MM_ACQUIRE_PHY_LOCK_DPC_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Acquiring phy lock\n"); #define MM_RELEASE_PHY_LOCK_DPC_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Releasing phy lock\n"); #define MM_ACQUIRE_MCP_LOCK_IMP(pdev) #define MM_RELEASE_MCP_LOCK_IMP(pdev) #define MM_ACQUIRE_ISLES_CONTROL_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Acquiring isles control lock\n"); #define MM_RELEASE_ISLES_CONTROL_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Releasing isles control lock\n"); #define MM_ACQUIRE_ISLES_CONTROL_LOCK_DPC_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Acquiring isles control lock\n"); #define MM_RELEASE_ISLES_CONTROL_LOCK_DPC_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Releasing isles control lock\n"); #define MM_ACQUIRE_IND_REG_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Acquiring ind_reg lock\n"); #define MM_RELEASE_IND_REG_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Releasing ind_reg lock\n"); #define MM_ACQUIRE_LOADER_LOCK_IMP() \ DbgMessage(pdev, VERBOSEi, "Acquiring loader lock\n"); #define MM_RELEASE_LOADER_LOCK_IMP() \ DbgMessage(pdev, VERBOSEi, "Releasing loader lock\n"); #define MM_ACQUIRE_SP_REQ_MGR_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Acquiring sp_req_mgr lock\n"); #define MM_RELEASE_SP_REQ_MGR_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Releasing sp_req_mgr lock\n"); #define MM_ACQUIRE_SB_LOCK_IMP(pdev, sb_idx) \ DbgMessage(pdev, VERBOSEi, "Acquiring sb lock\n"); #define MM_RELEASE_SB_LOCK_IMP(pdev, sb_idx) \ DbgMessage(pdev, VERBOSEi, "Releasing sb lock\n"); #define MM_ACQUIRE_ETH_CON_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Acquiring eth con lock\n"); #define MM_RELEASE_ETH_CON_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Releasing eth con lock\n"); static void mm_init_lock(struct _lm_device_t *_pdev, mm_spin_lock_t *lock) { /* Do nothing */ } static __inline lm_status_t mm_acquire_lock(mm_spin_lock_t *spinlock) { DbgMessage(NULL, VERBOSEi, "Acquiring lock #%d\n", (u32_t)spinlock); return LM_STATUS_SUCCESS; } static __inline lm_status_t mm_release_lock(mm_spin_lock_t *spinlock) { DbgMessage(NULL, VERBOSEi, "Releasing lock #%d\n", (u32_t)spinlock); return LM_STATUS_SUCCESS; } #ifdef VF_INVOLVED #define MM_ACQUIRE_PF_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Acquiring pf lock\n"); #define MM_RELEASE_PF_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Releasing pf lock\n"); #define MM_ACQUIRE_VFS_STATS_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Acquiring vfs stats lock\n"); #define MM_RELEASE_VFS_STATS_LOCK_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Releasing vfs stats lock\n"); #define MM_ACQUIRE_VFS_STATS_LOCK_DPC_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Acquiring vfs stats lock\n"); #define MM_RELEASE_VFS_STATS_LOCK_DPC_IMP(pdev) \ DbgMessage(pdev, VERBOSEi, "Releasing vfs stats lock\n"); #endif /* VF_INVOLVED */ #define mm_er_initiate_recovery_imp(pdev) \ (LM_STATUS_FAILURE) #define mm_register_dpc_imp(_pdev, _func) \ (LM_STATUS_FAILURE) #define mm_empty_ramrod_received_imp(pdev, lm_cli_idx) #define mm_debug_start_if_enabled_imp(pdev) #define mm_debug_stop_if_started_imp(pdev) #ifdef BIG_ENDIAN // LE #define mm_le16_to_cpu_imp(val) SWAP_BYTES16(val) #define mm_cpu_to_le16_imp(val) SWAP_BYTES16(val) #define mm_le32_to_cpu_imp(val) SWAP_BYTES32(val) #define mm_cpu_to_le32_imp(val) SWAP_BYTES32(val) // BE #define mm_be32_to_cpu_imp(val) (val) #define mm_cpu_to_be32_imp(val) (val) #define mm_be16_to_cpu_imp(val) (val) #define mm_cpu_to_be16_imp(val) (val) #else /* LITTLE_ENDIAN */ // LE #define mm_le16_to_cpu_imp(val) (val) #define mm_cpu_to_le16_imp(val) (val) #define mm_le32_to_cpu_imp(val) (val) #define mm_cpu_to_le32_imp(val) (val) // BE #define mm_be32_to_cpu_imp(val) SWAP_BYTES32(val) #define mm_cpu_to_be32_imp(val) SWAP_BYTES32(val) #define mm_be16_to_cpu_imp(val) SWAP_BYTES16(val) #define mm_cpu_to_be16_imp(val) SWAP_BYTES16(val) #endif /* ifdef BIG_ENDIAN */ #define mm_get_bar_offset_imp(pdev, bar_num, bar_addr) \ lm_get_bar_offset_direct(pdev, bar_num, bar_addr) #define mm_get_bar_size_imp(pdev, bar_num, val_p) \ lm_get_bar_size_direct(pdev, bar_num, val_p) #define MM_DCB_MP_L2_IS_ENABLE(_pdev) (FALSE)