#include "config.h" #include #include #include #include #include #include #include #include "winbase.h" #include "aspi.h" #include "wnaspi32.h" #include "options.h" #include "heap.h" #include "debugtools.h" #include "ldt.h" #include "callback.h" DEFAULT_DEBUG_CHANNEL(aspi) /* FIXME! * 1) Residual byte length reporting not handled * 2) Make this code re-entrant for multithreading * -- Added CriticalSection to OpenDevices function * 3) Only linux supported so far * 4) Leaves sg devices open. This may or may not be okay. A better solution * would be to close the file descriptors when the thread/process using * them no longer needs them. */ #ifdef linux static ASPI_DEVICE_INFO *ASPI_open_devices = NULL; static CRITICAL_SECTION ASPI_CritSection; #endif /* defined(linux) */ BOOL WINAPI WNASPI32_LibMain(HINSTANCE hInstDLL, DWORD fdwReason, LPVOID fImpLoad) { #ifdef linux static BOOL bInitDone=FALSE; #if 0 TRACE("0x%x 0x%1x %p\n", hInstDLL, fdwReason, fImpLoad); #endif switch( fdwReason ) { case DLL_PROCESS_ATTACH: /* Create instance data */ if(!bInitDone) { /* Initialize global stuff just once */ InitializeCriticalSection(&ASPI_CritSection); bInitDone=TRUE; } break; case DLL_PROCESS_DETACH: /* Destroy instance data */ break; case DLL_THREAD_ATTACH: case DLL_THREAD_DETACH: break; } return TRUE; #else /* defined(linux) */ return TRUE; #endif /* defined(linux) */ } #ifdef linux static int ASPI_OpenDevice(SRB_ExecSCSICmd *prb) { int fd; char idstr[20]; char device_str[50]; ASPI_DEVICE_INFO *curr; /* search list of devices to see if we've opened it already. * There is not an explicit open/close in ASPI land, so hopefully * keeping a device open won't be a problem. */ EnterCriticalSection(&ASPI_CritSection); for (curr = ASPI_open_devices; curr; curr = curr->next) { if (curr->hostId == prb->SRB_HaId && curr->target == prb->SRB_Target && curr->lun == prb->SRB_Lun) { LeaveCriticalSection(&ASPI_CritSection); return curr->fd; } } LeaveCriticalSection(&ASPI_CritSection); /* device wasn't cached, go ahead and open it */ sprintf(idstr, "scsi c%1dt%1dd%1d", prb->SRB_HaId, prb->SRB_Target, prb->SRB_Lun); if (!PROFILE_GetWineIniString(idstr, "Device", "", device_str, sizeof(device_str))) { TRACE("Trying to open unlisted scsi device %s\n", idstr); return -1; } TRACE("Opening device %s=%s\n", idstr, device_str); fd = open(device_str, O_RDWR); if (fd == -1) { int save_error = errno; #ifdef HAVE_STRERROR ERR("Error opening device %s, error '%s'\n", device_str, strerror(save_error)); #else ERR("Error opening device %s, error %d\n", device_str, save_error); #endif return -1; } /* device is now open */ curr = HeapAlloc( SystemHeap, 0, sizeof(ASPI_DEVICE_INFO) ); curr->fd = fd; curr->hostId = prb->SRB_HaId; curr->target = prb->SRB_Target; curr->lun = prb->SRB_Lun; /* insert new record at beginning of open device list */ EnterCriticalSection(&ASPI_CritSection); curr->next = ASPI_open_devices; ASPI_open_devices = curr; LeaveCriticalSection(&ASPI_CritSection); return fd; } static void ASPI_DebugPrintCmd(SRB_ExecSCSICmd *prb) { BYTE cmd; int i; BYTE *cdb; switch (prb->CDBByte[0]) { case CMD_INQUIRY: TRACE("{\n"); TRACE("\tEVPD: %d\n", prb->CDBByte[1] & 1); TRACE("\tLUN: %d\n", (prb->CDBByte[1] & 0xc) >> 1); TRACE("\tPAGE CODE: %d\n", prb->CDBByte[2]); TRACE("\tALLOCATION LENGTH: %d\n", prb->CDBByte[4]); TRACE("\tCONTROL: %d\n", prb->CDBByte[5]); TRACE("}\n"); break; case CMD_SCAN_SCAN: TRACE("Transfer Length: %d\n", prb->CDBByte[4]); break; } TRACE("Host Adapter: %d\n", prb->SRB_HaId); TRACE("Flags: %d\n", prb->SRB_Flags); if (TARGET_TO_HOST(prb)) { TRACE("\tData transfer: Target to host. Length checked.\n"); } else if (HOST_TO_TARGET(prb)) { TRACE("\tData transfer: Host to target. Length checked.\n"); } else if (NO_DATA_TRANSFERED(prb)) { TRACE("\tData transfer: none\n"); } else { WARN("\tTransfer by scsi cmd. Length not checked.\n"); } TRACE("\tResidual byte length reporting %s\n", prb->SRB_Flags & 0x4 ? "enabled" : "disabled"); TRACE("\tLinking %s\n", prb->SRB_Flags & 0x2 ? "enabled" : "disabled"); TRACE("\tPosting %s\n", prb->SRB_Flags & 0x1 ? "enabled" : "disabled"); TRACE("Target: %d\n", prb->SRB_Target); TRACE("Lun: %d\n", prb->SRB_Lun); TRACE("BufLen: %ld\n", prb->SRB_BufLen); TRACE("SenseLen: %d\n", prb->SRB_SenseLen); TRACE("BufPtr: %p\n", prb->SRB_BufPointer); TRACE("CDB Length: %d\n", prb->SRB_CDBLen); TRACE("POST Proc: %lx\n", (DWORD) prb->SRB_PostProc); cdb = &prb->CDBByte[0]; cmd = prb->CDBByte[0]; if (TRACE_ON(aspi)) { DPRINTF("CDB buffer["); for (i = 0; i < prb->SRB_CDBLen; i++) { if (i != 0) DPRINTF(","); DPRINTF("%02x", *cdb++); } DPRINTF("]\n"); } } static void ASPI_PrintSenseArea(SRB_ExecSCSICmd *prb) { int i; BYTE *cdb; if (TRACE_ON(aspi)) { cdb = &prb->CDBByte[16]; DPRINTF("SenseArea["); for (i = 0; i < prb->SRB_SenseLen; i++) { if (i) DPRINTF(","); DPRINTF("%02x", *cdb++); } DPRINTF("]\n"); } } static void ASPI_DebugPrintResult(SRB_ExecSCSICmd *prb) { TRACE("SRB_Status: %x\n", prb->SRB_Status); TRACE("SRB_HaStat: %x\n", prb->SRB_HaStat); TRACE("SRB_TargStat: %x\n", prb->SRB_TargStat); switch (prb->CDBByte[0]) { case CMD_INQUIRY: TRACE("Vendor: '%s'\n", prb->SRB_BufPointer + INQUIRY_VENDOR); break; case CMD_TEST_UNIT_READY: ASPI_PrintSenseArea(prb); break; } } static WORD ASPI_ExecScsiCmd(SRB_ExecSCSICmd *lpPRB) { struct sg_header *sg_hd, *sg_reply_hdr; int status; int in_len, out_len; int error_code = 0; int fd; ASPI_DebugPrintCmd(lpPRB); fd = ASPI_OpenDevice(lpPRB); if (fd == -1) { ERR("Failed: could not open device c%01dt%01dd%01d. Device permissions !?\n", lpPRB->SRB_HaId,lpPRB->SRB_Target,lpPRB->SRB_Lun); lpPRB->SRB_Status = SS_NO_DEVICE; return SS_NO_DEVICE; } sg_hd = NULL; sg_reply_hdr = NULL; lpPRB->SRB_Status = SS_PENDING; if (!lpPRB->SRB_CDBLen) { WARN("Failed: lpPRB->SRB_CDBLen = 0.\n"); lpPRB->SRB_Status = SS_ERR; return SS_ERR; } /* build up sg_header + scsi cmd */ if (HOST_TO_TARGET(lpPRB)) { /* send header, command, and then data */ in_len = SCSI_OFF + lpPRB->SRB_CDBLen + lpPRB->SRB_BufLen; sg_hd = (struct sg_header *) HeapAlloc(GetProcessHeap(), 0, in_len); memset(sg_hd, 0, SCSI_OFF); memcpy(sg_hd + 1, &lpPRB->CDBByte[0], lpPRB->SRB_CDBLen); if (lpPRB->SRB_BufLen) { memcpy(((BYTE *) sg_hd) + SCSI_OFF + lpPRB->SRB_CDBLen, lpPRB->SRB_BufPointer, lpPRB->SRB_BufLen); } } else { /* send header and command - no data */ in_len = SCSI_OFF + lpPRB->SRB_CDBLen; sg_hd = (struct sg_header *) HeapAlloc(GetProcessHeap(), 0, in_len); memset(sg_hd, 0, SCSI_OFF); memcpy(sg_hd + 1, &lpPRB->CDBByte[0], lpPRB->SRB_CDBLen); } if (TARGET_TO_HOST(lpPRB)) { out_len = SCSI_OFF + lpPRB->SRB_BufLen; sg_reply_hdr = (struct sg_header *) HeapAlloc(GetProcessHeap(), 0, out_len); memset(sg_reply_hdr, 0, SCSI_OFF); sg_hd->reply_len = out_len; } else { out_len = SCSI_OFF; sg_reply_hdr = (struct sg_header *) HeapAlloc(GetProcessHeap(), 0, out_len); memset(sg_reply_hdr, 0, SCSI_OFF); sg_hd->reply_len = out_len; } status = write(fd, sg_hd, in_len); if (status < 0 || status != in_len) { int save_error = errno; WARN("Not enough bytes written to scsi device bytes=%d .. %d\n", in_len, status); if (status < 0) { if (save_error == ENOMEM) { MESSAGE("ASPI: Linux generic scsi driver\n You probably need to re-compile your kernel with a larger SG_BIG_BUFF value (sg.h)\n Suggest 130560\n"); } #ifdef HAVE_STRERROR WARN("error:= '%s'\n", strerror(save_error)); #else WARN("error:= %d\n", save_error); #endif } goto error_exit; } status = read(fd, sg_reply_hdr, out_len); if (status < 0 || status != out_len) { WARN("not enough bytes read from scsi device%d\n", status); goto error_exit; } if (sg_reply_hdr->result != 0) { error_code = sg_reply_hdr->result; WARN("reply header error (%d)\n", sg_reply_hdr->result); goto error_exit; } if (TARGET_TO_HOST(lpPRB) && lpPRB->SRB_BufLen) { memcpy(lpPRB->SRB_BufPointer, sg_reply_hdr + 1, lpPRB->SRB_BufLen); } /* copy in sense buffer to amount that is available in client */ if (lpPRB->SRB_SenseLen) { int sense_len = lpPRB->SRB_SenseLen; if (lpPRB->SRB_SenseLen > 16) sense_len = 16; /* CDB is fixed in WNASPI32 */ memcpy(&lpPRB->CDBByte[16], &sg_reply_hdr->sense_buffer[0], sense_len); TRACE("CDB is %d bytes long\n", lpPRB->SRB_CDBLen ); ASPI_PrintSenseArea(lpPRB); } lpPRB->SRB_Status = SS_COMP; lpPRB->SRB_HaStat = HASTAT_OK; lpPRB->SRB_TargStat = sg_reply_hdr->target_status << 1; /* FIXME: Should this be != 0 maybe? */ if( lpPRB->SRB_TargStat == 2 ) lpPRB->SRB_Status = SS_ERR; ASPI_DebugPrintResult(lpPRB); /* now do posting */ if (lpPRB->SRB_PostProc) { if (ASPI_POSTING(lpPRB)) { TRACE("Post Routine (%lx) called\n", (DWORD) lpPRB->SRB_PostProc); (*lpPRB->SRB_PostProc)(lpPRB); } else if (lpPRB->SRB_Flags & SRB_EVENT_NOTIFY) { TRACE("Setting event %04x\n", (HANDLE)lpPRB->SRB_PostProc); SetEvent((HANDLE)lpPRB->SRB_PostProc); /* FIXME: correct ? */ } } HeapFree(GetProcessHeap(), 0, sg_reply_hdr); HeapFree(GetProcessHeap(), 0, sg_hd); return SS_PENDING; /* In real WNASPI32 stuff really is always pending because ASPI does things in the background, but we are not doing that (yet) */ error_exit: if (error_code == EBUSY) { lpPRB->SRB_Status = SS_ASPI_IS_BUSY; TRACE("Device busy\n"); } else { WARN("Failed\n"); lpPRB->SRB_Status = SS_ERR; } /* I'm not sure exactly error codes work here * We probably should set lpPRB->SRB_TargStat, SRB_HaStat ? */ WARN("error_exit\n"); HeapFree(GetProcessHeap(), 0, sg_reply_hdr); HeapFree(GetProcessHeap(), 0, sg_hd); return lpPRB->SRB_Status; } #endif /* defined(linux) */ /******************************************************************* * GetASPI32SupportInfo32 [WNASPI32.0] * * Checks if the ASPI subsystem is initialized correctly. * * RETURNS * HIWORD: 0. * HIBYTE of LOWORD: status (SS_COMP or SS_FAILED_INIT) * LOBYTE of LOWORD: # of host adapters. */ DWORD WINAPI GetASPI32SupportInfo() { return ((SS_COMP << 8) | 1); /* FIXME: get # of host adapters installed */ } /*********************************************************************** * SendASPI32Command32 (WNASPI32.1) */ DWORD __cdecl SendASPI32Command(LPSRB lpSRB) { #ifdef linux switch (lpSRB->common.SRB_Cmd) { case SC_HA_INQUIRY: lpSRB->inquiry.SRB_Status = SS_COMP; /* completed successfully */ lpSRB->inquiry.HA_Count = 1; /* not always */ lpSRB->inquiry.HA_SCSI_ID = 7; /* not always ID 7 */ strcat(lpSRB->inquiry.HA_ManagerId, "ASPI for WIN32"); /* max 15 chars, don't change */ strcat(lpSRB->inquiry.HA_Identifier, "Wine host"); /* FIXME: return host adapter name */ memset(lpSRB->inquiry.HA_Unique, 0, 16); /* default HA_Unique content */ lpSRB->inquiry.HA_Unique[6] = 0x02; /* Maximum Transfer Length (128K, Byte> 4-7) */ FIXME("ASPI: Partially implemented SC_HA_INQUIRY for adapter %d.\n", lpSRB->inquiry.SRB_HaId); return SS_COMP; case SC_GET_DEV_TYPE: { /* FIXME: We should return SS_NO_DEVICE if the device is not configured */ /* FIXME: We should return SS_INVALID_HA if HostAdapter!=0 */ SRB tmpsrb; char inqbuf[200]; memset(&tmpsrb,0,sizeof(tmpsrb)); tmpsrb.cmd.SRB_Cmd = SC_EXEC_SCSI_CMD; #define X(x) tmpsrb.cmd.SRB_##x = lpSRB->devtype.SRB_##x X(Status);X(HaId);X(Flags);X(Target);X(Lun); #undef X tmpsrb.cmd.SRB_BufLen = sizeof(inqbuf); tmpsrb.cmd.SRB_Flags = 8;/*target->host data. FIXME: anything more?*/ tmpsrb.cmd.SRB_BufPointer = inqbuf; tmpsrb.cmd.CDBByte[0] = 0x12; /* INQUIRY */ tmpsrb.cmd.CDBByte[4] = sizeof(inqbuf); tmpsrb.cmd.SRB_CDBLen = 6; ASPI_ExecScsiCmd(&tmpsrb.cmd); #define X(x) lpSRB->devtype.SRB_##x = tmpsrb.cmd.SRB_##x X(Status); #undef X lpSRB->devtype.SRB_DeviceType = inqbuf[0]&0x1f; TRACE("returning devicetype %d for target %d\n",inqbuf[0]&0x1f,tmpsrb.cmd.SRB_Target); break; } case SC_EXEC_SCSI_CMD: return ASPI_ExecScsiCmd(&lpSRB->cmd); break; case SC_ABORT_SRB: FIXME("Not implemented SC_ABORT_SRB\n"); break; case SC_RESET_DEV: FIXME("Not implemented SC_RESET_DEV\n"); break; #ifdef SC_GET_DISK_INFO case SC_GET_DISK_INFO: /* NT Doesn't implement this either.. so don't feel bad */ WARN("Not implemented SC_GET_DISK_INFO\n"); break; #endif default: WARN("Unknown command %d\n", lpSRB->common.SRB_Cmd); } return SS_INVALID_SRB; #else return SS_INVALID_SRB; #endif } /*********************************************************************** * GetASPI32DLLVersion32 (WNASPI32.3) */ DWORD WINAPI GetASPI32DLLVersion() { #ifdef linux return (DWORD)1; #else return (DWORD)0; #endif }