/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2019 Leandro Lupori * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include #include #include #include #include #if _BYTE_ORDER != _LITTLE_ENDIAN #define TOH2(field, bits) field = le##bits##toh(field) #define TOH(field, bits) TOH2(field, bits) #define TOLE2(field, bits) field = htole##bits(field) #define TOLE(field, bits) TOLE2(field, bits) /* Convert from Little-Endian to host order (TOH) */ void aac_fib_header_toh(struct aac_fib_header *ptr) { TOH(ptr->XferState, 32); TOH(ptr->Command, 16); TOH(ptr->Size, 16); TOH(ptr->SenderSize, 16); TOH(ptr->SenderFibAddress, 32); TOH(ptr->u.ReceiverFibAddress, 32); TOH(ptr->Handle, 32); TOH(ptr->Previous, 32); TOH(ptr->Next, 32); } void aac_adapter_info_toh(struct aac_adapter_info *ptr) { TOH(ptr->PlatformBase, 32); TOH(ptr->CpuArchitecture, 32); TOH(ptr->CpuVariant, 32); TOH(ptr->ClockSpeed, 32); TOH(ptr->ExecutionMem, 32); TOH(ptr->BufferMem, 32); TOH(ptr->TotalMem, 32); TOH(ptr->KernelRevision.buildNumber, 32); TOH(ptr->MonitorRevision.buildNumber, 32); TOH(ptr->HardwareRevision.buildNumber, 32); TOH(ptr->BIOSRevision.buildNumber, 32); TOH(ptr->ClusteringEnabled, 32); TOH(ptr->ClusterChannelMask, 32); TOH(ptr->SerialNumber, 64); TOH(ptr->batteryPlatform, 32); TOH(ptr->SupportedOptions, 32); TOH(ptr->OemVariant, 32); } void aac_container_creation_toh(struct aac_container_creation *ptr) { u_int32_t *date = (u_int32_t *)ptr + 1; *date = le32toh(*date); TOH(ptr->ViaAdapterSerialNumber, 64); } void aac_mntobj_toh(struct aac_mntobj *ptr) { TOH(ptr->ObjectId, 32); aac_container_creation_toh(&ptr->CreateInfo); TOH(ptr->Capacity, 32); TOH(ptr->VolType, 32); TOH(ptr->ObjType, 32); TOH(ptr->ContentState, 32); TOH(ptr->ObjExtension.BlockDevice.BlockSize, 32); TOH(ptr->ObjExtension.BlockDevice.bdLgclPhysMap, 32); TOH(ptr->AlterEgoId, 32); TOH(ptr->CapacityHigh, 32); } void aac_mntinforesp_toh(struct aac_mntinforesp *ptr) { TOH(ptr->Status, 32); TOH(ptr->MntType, 32); TOH(ptr->MntRespCount, 32); aac_mntobj_toh(&ptr->MntTable[0]); } void aac_fsa_ctm_toh(struct aac_fsa_ctm *ptr) { int i; TOH(ptr->command, 32); for (i = 0; i < CT_FIB_PARAMS; i++) TOH(ptr->param[i], 32); } void aac_cnt_config_toh(struct aac_cnt_config *ptr) { TOH(ptr->Command, 32); aac_fsa_ctm_toh(&ptr->CTCommand); } void aac_ctcfg_resp_toh(struct aac_ctcfg_resp *ptr) { TOH(ptr->Status, 32); TOH(ptr->resp, 32); TOH(ptr->param, 32); } void aac_getbusinf_toh(struct aac_getbusinf *ptr) { TOH(ptr->ProbeComplete, 32); TOH(ptr->BusCount, 32); TOH(ptr->TargetsPerBus, 32); } void aac_vmi_businf_resp_toh(struct aac_vmi_businf_resp *ptr) { TOH(ptr->Status, 32); TOH(ptr->ObjType, 32); TOH(ptr->MethId, 32); TOH(ptr->ObjId, 32); TOH(ptr->IoctlCmd, 32); aac_getbusinf_toh(&ptr->BusInf); } void aac_srb_response_toh(struct aac_srb_response *ptr) { TOH(ptr->fib_status, 32); TOH(ptr->srb_status, 32); TOH(ptr->scsi_status, 32); TOH(ptr->data_len, 32); TOH(ptr->sense_len, 32); } /* Convert from host order to Little-Endian (TOLE) */ void aac_adapter_init_tole(struct aac_adapter_init *ptr) { TOLE(ptr->InitStructRevision, 32); TOLE(ptr->NoOfMSIXVectors, 32); TOLE(ptr->FilesystemRevision, 32); TOLE(ptr->CommHeaderAddress, 32); TOLE(ptr->FastIoCommAreaAddress, 32); TOLE(ptr->AdapterFibsPhysicalAddress, 32); TOLE(ptr->AdapterFibsVirtualAddress, 32); TOLE(ptr->AdapterFibsSize, 32); TOLE(ptr->AdapterFibAlign, 32); TOLE(ptr->PrintfBufferAddress, 32); TOLE(ptr->PrintfBufferSize, 32); TOLE(ptr->HostPhysMemPages, 32); TOLE(ptr->HostElapsedSeconds, 32); TOLE(ptr->InitFlags, 32); TOLE(ptr->MaxIoCommands, 32); TOLE(ptr->MaxIoSize, 32); TOLE(ptr->MaxFibSize, 32); TOLE(ptr->MaxNumAif, 32); TOLE(ptr->HostRRQ_AddrLow, 32); TOLE(ptr->HostRRQ_AddrHigh, 32); } void aac_fib_header_tole(struct aac_fib_header *ptr) { TOLE(ptr->XferState, 32); TOLE(ptr->Command, 16); TOLE(ptr->Size, 16); TOLE(ptr->SenderSize, 16); TOLE(ptr->SenderFibAddress, 32); TOLE(ptr->u.ReceiverFibAddress, 32); TOLE(ptr->Handle, 32); TOLE(ptr->Previous, 32); TOLE(ptr->Next, 32); } void aac_mntinfo_tole(struct aac_mntinfo *ptr) { TOLE(ptr->Command, 32); TOLE(ptr->MntType, 32); TOLE(ptr->MntCount, 32); } void aac_fsa_ctm_tole(struct aac_fsa_ctm *ptr) { int i; TOLE(ptr->command, 32); for (i = 0; i < CT_FIB_PARAMS; i++) TOLE(ptr->param[i], 32); } void aac_cnt_config_tole(struct aac_cnt_config *ptr) { TOLE(ptr->Command, 32); aac_fsa_ctm_tole(&ptr->CTCommand); } void aac_raw_io_tole(struct aac_raw_io *ptr) { TOLE(ptr->BlockNumber, 64); TOLE(ptr->ByteCount, 32); TOLE(ptr->ContainerId, 16); TOLE(ptr->Flags, 16); TOLE(ptr->BpTotal, 16); TOLE(ptr->BpComplete, 16); } void aac_raw_io2_tole(struct aac_raw_io2 *ptr) { TOLE(ptr->strtBlkLow, 32); TOLE(ptr->strtBlkHigh, 32); TOLE(ptr->byteCnt, 32); TOLE(ptr->ldNum, 16); TOLE(ptr->flags, 16); TOLE(ptr->sgeFirstSize, 32); TOLE(ptr->sgeNominalSize, 32); } void aac_fib_xporthdr_tole(struct aac_fib_xporthdr *ptr) { TOLE(ptr->HostAddress, 64); TOLE(ptr->Size, 32); TOLE(ptr->Handle, 32); } void aac_ctcfg_tole(struct aac_ctcfg *ptr) { TOLE(ptr->Command, 32); TOLE(ptr->cmd, 32); TOLE(ptr->param, 32); } void aac_vmioctl_tole(struct aac_vmioctl *ptr) { TOLE(ptr->Command, 32); TOLE(ptr->ObjType, 32); TOLE(ptr->MethId, 32); TOLE(ptr->ObjId, 32); TOLE(ptr->IoctlCmd, 32); TOLE(ptr->IoctlBuf[0], 32); } void aac_pause_command_tole(struct aac_pause_command *ptr) { TOLE(ptr->Command, 32); TOLE(ptr->Type, 32); TOLE(ptr->Timeout, 32); TOLE(ptr->Min, 32); TOLE(ptr->NoRescan, 32); TOLE(ptr->Parm3, 32); TOLE(ptr->Parm4, 32); TOLE(ptr->Count, 32); } void aac_srb_tole(struct aac_srb *ptr) { TOLE(ptr->function, 32); TOLE(ptr->bus, 32); TOLE(ptr->target, 32); TOLE(ptr->lun, 32); TOLE(ptr->timeout, 32); TOLE(ptr->flags, 32); TOLE(ptr->data_len, 32); TOLE(ptr->retry_limit, 32); TOLE(ptr->cdb_len, 32); } void aac_sge_ieee1212_tole(struct aac_sge_ieee1212 *ptr) { TOLE(ptr->addrLow, 32); TOLE(ptr->addrHigh, 32); TOLE(ptr->length, 32); TOLE(ptr->flags, 32); } void aac_sg_entryraw_tole(struct aac_sg_entryraw *ptr) { TOLE(ptr->Next, 32); TOLE(ptr->Prev, 32); TOLE(ptr->SgAddress, 64); TOLE(ptr->SgByteCount, 32); TOLE(ptr->Flags, 32); } void aac_sg_entry_tole(struct aac_sg_entry *ptr) { TOLE(ptr->SgAddress, 32); TOLE(ptr->SgByteCount, 32); } void aac_sg_entry64_tole(struct aac_sg_entry64 *ptr) { TOLE(ptr->SgAddress, 64); TOLE(ptr->SgByteCount, 32); } void aac_blockread_tole(struct aac_blockread *ptr) { TOLE(ptr->Command, 32); TOLE(ptr->ContainerId, 32); TOLE(ptr->BlockNumber, 32); TOLE(ptr->ByteCount, 32); } void aac_blockwrite_tole(struct aac_blockwrite *ptr) { TOLE(ptr->Command, 32); TOLE(ptr->ContainerId, 32); TOLE(ptr->BlockNumber, 32); TOLE(ptr->ByteCount, 32); TOLE(ptr->Stable, 32); } void aac_blockread64_tole(struct aac_blockread64 *ptr) { TOLE(ptr->Command, 32); TOLE(ptr->ContainerId, 16); TOLE(ptr->SectorCount, 16); TOLE(ptr->BlockNumber, 32); TOLE(ptr->Pad, 16); TOLE(ptr->Flags, 16); } void aac_blockwrite64_tole(struct aac_blockwrite64 *ptr) { TOLE(ptr->Command, 32); TOLE(ptr->ContainerId, 16); TOLE(ptr->SectorCount, 16); TOLE(ptr->BlockNumber, 32); TOLE(ptr->Pad, 16); TOLE(ptr->Flags, 16); } #endif