/*
* dev_interface.h
*
- * Home page of code is: http://smartmontools.sourceforge.net
+ * Home page of code is: http://www.smartmontools.org
*
- * Copyright (C) 2008-12 Christian Franke <smartmontools-support@lists.sourceforge.net>
- *
- * 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, or (at your option)
- * any later version.
- *
- * You should have received a copy of the GNU General Public License
- * (for example COPYING); If not, see <http://www.gnu.org/licenses/>.
+ * Copyright (C) 2008-18 Christian Franke
*
+ * SPDX-License-Identifier: GPL-2.0-or-later
*/
#ifndef DEV_INTERFACE_H
#define DEV_INTERFACE_H
-#define DEV_INTERFACE_H_CVSID "$Id: dev_interface.h 3554 2012-06-01 20:11:46Z chrfranke $\n"
+#define DEV_INTERFACE_H_CVSID "$Id: dev_interface.h 4848 2018-12-05 18:30:46Z chrfranke $\n"
#include "utility.h"
class smart_interface;
class ata_device;
class scsi_device;
+class nvme_device;
/// Base class for all devices
class smart_device
enum do_not_use_in_implementation_classes { never_called };
/// Dummy constructor for abstract classes.
/// Must never be called in implementation classes.
- smart_device(do_not_use_in_implementation_classes);
+ explicit smart_device(do_not_use_in_implementation_classes);
public:
virtual ~smart_device() throw();
/// Return true if SCSI device
bool is_scsi() const
{ return !!m_scsi_ptr; }
+ /// Return true if NVMe device
+ bool is_nvme() const
+ { return !!m_nvme_ptr; }
/// Downcast to ATA device.
ata_device * to_ata()
/// Downcast to SCSI device (const).
const scsi_device * to_scsi() const
{ return m_scsi_ptr; }
+ /// Downcast to NVMe device.
+ nvme_device * to_nvme()
+ { return m_nvme_ptr; }
+ /// Downcast to NVMe device (const).
+ const nvme_device * to_nvme() const
+ { return m_nvme_ptr; }
///////////////////////////////////////////////
// Device information
/// Message is retrieved from interface's get_msg_for_errno(no).
bool set_err(int no);
+ /// Get current number of allocated 'smart_device' objects.
+ static int get_num_objects()
+ { return s_num_objects; }
+
// Operations
public:
///////////////////////////////////////////////
/// Default implementation calls 'open()' and returns 'this'.
virtual smart_device * autodetect_open();
+ ///////////////////////////////////////////////
+ // Support for checking power mode reported by operating system
+
+ /// Early test if device is powered up or down.
+ /// Can be used without calling 'open()' first!
+ /// Return true when device is powered down, false when
+ /// powered up. If this function is not implemented or
+ /// the mode cannot be determined, return false.
+ /// Default implementation returns false.
+ virtual bool is_powered_down();
+
///////////////////////////////////////////////
// Support for tunnelled devices
device_info m_info;
error_info m_err;
- // Pointers for to_ata(), to_scsi(),
- // set by ATA/SCSI interface classes.
+ // Pointers for to_ata(), to_scsi(), to_nvme()
+ // set by ATA/SCSI/NVMe interface classes.
friend class ata_device;
ata_device * m_ata_ptr;
friend class scsi_device;
scsi_device * m_scsi_ptr;
+ friend class nvme_device;
+ nvme_device * m_nvme_ptr;
- // Prevent copy/assigment
+ // Number of objects.
+ static int s_num_objects;
+
+ // Prevent copy/assignment
smart_device(const smart_device &);
void operator=(const smart_device &);
};
virtual bool ata_identify_is_cached() const;
protected:
+ /// Flags for ata_cmd_is_supported().
+ enum {
+ supports_data_out = 0x01, // PIO DATA OUT
+ supports_smart_status = 0x02, // read output registers for SMART STATUS only
+ supports_output_regs = 0x04, // read output registers for all commands
+ supports_multi_sector = 0x08, // more than one sector (1 DRQ/sector variant)
+ supports_48bit_hi_null = 0x10, // 48-bit commands with null high bytes only
+ supports_48bit = 0x20, // all 48-bit commands
+ };
+
/// Check command input parameters.
+ /// Return false if required features are not implemented.
/// Calls set_err(...) accordingly.
+ bool ata_cmd_is_supported(const ata_cmd_in & in, unsigned flags,
+ const char * type = 0);
+
+ /// Check command input parameters (old version).
+ // TODO: Remove if no longer used.
bool ata_cmd_is_ok(const ata_cmd_in & in,
bool data_out_support = false,
bool multi_sector_support = false,
- bool ata_48bit_support = false);
+ bool ata_48bit_support = false)
+ {
+ return ata_cmd_is_supported(in,
+ (data_out_support ? supports_data_out : 0) |
+ supports_output_regs |
+ (multi_sector_support ? supports_multi_sector : 0) |
+ (ata_48bit_support ? supports_48bit : 0));
+ }
/// Hide/unhide ATA interface.
void hide_ata(bool hide = true)
/// Returns false on error.
virtual bool scsi_pass_through(scsi_cmnd_io * iop) = 0;
+ // Call scsi_pass_through and check sense.
+ bool scsi_pass_through_and_check(scsi_cmnd_io * iop,
+ const char * msg = "");
+
+ /// Always try READ CAPACITY(10) (rcap10) first but once we know
+ /// rcap16 is needed, use it instead.
+ void set_rcap16_first()
+ { rcap16_first = true; }
+
+ bool use_rcap16() const
+ { return rcap16_first; }
+
protected:
/// Hide/unhide SCSI interface.
void hide_scsi(bool hide = true)
/// Default constructor, registers device as SCSI.
scsi_device()
- : smart_device(never_called)
+ : smart_device(never_called),
+ rcap16_first(false)
{ hide_scsi(false); }
+
+private:
+ bool rcap16_first;
+};
+
+
+/////////////////////////////////////////////////////////////////////////////
+// NVMe specific interface
+
+/// NVMe pass through input parameters
+struct nvme_cmd_in
+{
+ unsigned char opcode; ///< Opcode (CDW0 07:00)
+ unsigned nsid; ///< Namespace ID
+ unsigned cdw10, cdw11, cdw12, cdw13, cdw14, cdw15; ///< Cmd specific
+
+ void * buffer; ///< Pointer to data buffer
+ unsigned size; ///< Size of buffer
+
+ enum {
+ no_data = 0x0, data_out = 0x1, data_in = 0x2, data_io = 0x3
+ };
+
+ /// Get I/O direction from opcode
+ unsigned char direction() const
+ { return (opcode & 0x3); }
+
+ // Prepare for DATA IN command
+ void set_data_in(unsigned char op, void * buf, unsigned sz)
+ {
+ opcode = op;
+ if (direction() != data_in)
+ throw std::logic_error("invalid opcode for DATA IN");
+ buffer = buf;
+ size = sz;
+ }
+
+ nvme_cmd_in()
+ : opcode(0), nsid(0),
+ cdw10(0), cdw11(0), cdw12(0), cdw13(0), cdw14(0), cdw15(0),
+ buffer(0), size(0)
+ { }
+};
+
+/// NVMe pass through output parameters
+struct nvme_cmd_out
+{
+ unsigned result; ///< Command specific result (DW0)
+ unsigned short status; ///< Status Field (DW3 31:17)
+ bool status_valid; ///< true if status is valid
+
+ nvme_cmd_out()
+ : result(0), status(0), status_valid(false)
+ { }
+};
+
+/// NVMe device access
+class nvme_device
+: virtual public /*extends*/ smart_device
+{
+public:
+ /// NVMe pass through.
+ /// Return false on error.
+ virtual bool nvme_pass_through(const nvme_cmd_in & in, nvme_cmd_out & out) = 0;
+
+ /// Get namespace id.
+ unsigned get_nsid() const
+ { return m_nsid; }
+
+protected:
+ /// Hide/unhide NVMe interface.
+ void hide_nvme(bool hide = true)
+ { m_nvme_ptr = (!hide ? this : 0); }
+
+ /// Constructor requires namespace ID, registers device as NVMe.
+ explicit nvme_device(unsigned nsid)
+ : smart_device(never_called),
+ m_nsid(nsid)
+ { hide_nvme(false); }
+
+ /// Set namespace id.
+ /// Should be called in open() function if get_nsid() returns 0.
+ void set_nsid(unsigned nsid)
+ { m_nsid = nsid; }
+
+ /// Set last error number and message if pass-through returns NVMe error status.
+ /// Returns false always to allow use as a return expression.
+ bool set_nvme_err(nvme_cmd_out & out, unsigned status, const char * msg = 0);
+
+private:
+ unsigned m_nsid;
};
typedef any_device_auto_ptr<smart_device> smart_device_auto_ptr;
typedef any_device_auto_ptr<ata_device> ata_device_auto_ptr;
typedef any_device_auto_ptr<scsi_device> scsi_device_auto_ptr;
+typedef any_device_auto_ptr<nvme_device> nvme_device_auto_ptr;
/////////////////////////////////////////////////////////////////////////////
return dev;
}
+ void append(smart_device_list & devlist)
+ {
+ for (unsigned i = 0; i < devlist.size(); i++) {
+ smart_device * dev = devlist.at(i);
+ if (!dev)
+ continue;
+ push_back(dev);
+ devlist.m_list.at(i) = 0;
+ }
+ }
+
// Implementation
private:
std::vector<smart_device *> m_list;
- // Prevent copy/assigment
+ // Prevent copy/assignment
smart_device_list(const smart_device_list &);
void operator=(const smart_device_list &);
};
+/// List of types for DEVICESCAN
+typedef std::vector<std::string> smart_devtype_list;
+
+
/////////////////////////////////////////////////////////////////////////////
// smart_interface
/// Fill 'devlist' with devices of some 'type' with device names
/// specified by some optional 'pattern'.
+ /// Use platform specific default if 'type' is empty or 0.
/// Return false on error.
+ /// Default implementation returns false;
virtual bool scan_smart_devices(smart_device_list & devlist, const char * type,
- const char * pattern = 0) = 0;
+ const char * pattern = 0);
+
+ /// Fill 'devlist' with devices of all 'types' with device names
+ /// specified by some optional 'pattern'.
+ /// Use platform specific default if 'types' is empty.
+ /// Return false on error.
+ /// Default implementation calls above function for all types
+ /// and concatenates the results.
+ virtual bool scan_smart_devices(smart_device_list & devlist,
+ const smart_devtype_list & types, const char * pattern = 0);
protected:
/// Return standard ATA device.
/// Return standard SCSI device.
virtual scsi_device * get_scsi_device(const char * name, const char * type) = 0;
+ /// Return standard NVMe device.
+ /// Default implementation returns 0.
+ virtual nvme_device * get_nvme_device(const char * name, const char * type,
+ unsigned nsid);
+
/// Autodetect device if no device type specified.
virtual smart_device * autodetect_smart_device(const char * name) = 0;
/// Default implementation returns empty string.
virtual std::string get_valid_custom_dev_types_str();
- /// Return ATA->SCSI filter for SAT or USB.
+ /// Return ATA->SCSI of NVMe->SCSI filter for a SAT, SNT or USB 'type'.
+ /// Uses get_sat_device and get_snt_device.
+ /// Return 0 and delete 'scsidev' on error.
+ virtual smart_device * get_scsi_passthrough_device(const char * type, scsi_device * scsidev);
+
+ /// Return ATA->SCSI filter for a SAT or USB 'type'.
+ /// Device 'scsidev' is used for SCSI access.
+ /// Return 0 and delete 'scsidev' on error.
/// Override only if platform needs special handling.
virtual ata_device * get_sat_device(const char * type, scsi_device * scsidev);
//{ implemented in scsiata.cpp }
+ /// Return NVMe->SCSI filter for a SNT or USB 'type'.
+ /// Device 'scsidev' is used for SCSI access.
+ /// Return 0 and delete 'scsidev' on error.
+ /// Override only if platform needs special handling.
+ virtual nvme_device * get_snt_device(const char * type, scsi_device * scsidev);
+ //{ implemented in scsinvme.cpp }
+
public:
/// Try to detect a SAT device behind a SCSI interface.
/// Inquiry data can be passed if available.
friend smart_interface * smi(); // below
static smart_interface * s_instance; ///< Pointer to the interface object.
- // Prevent copy/assigment
+ // Prevent copy/assignment
smart_interface(const smart_interface &);
void operator=(const smart_interface &);
};