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#include <sys/stropts.h>
#include <sys/stream.h>
#include <sys/dlpi.h>
#include <sys/gld.h>
GLD implements most STREAMS and DLPI functionality required of an illumos LAN driver. Several illumos network drivers are implemented using GLD.
An illumos network driver implemented using GLD comprises two distinct parts: a generic component that deals with STREAMS and DLPI interfaces, and a device-specific component that deals with the particular hardware device. The device-specific module indicates its dependency on the GLD module and registers itself with GLD from within the driver's attach(9E) function. Once it is successfully loaded, the driver is DLPI-compliant. The device-specific part of the driver calls gld(9F) functions when it receives data or needs some service from GLD. GLD makes calls into the gld(9E) entry points of the device-specific driver through pointers provided to GLD by the device-specific driver when it registered itself with GLD. The gld_mac_info(9S) structure is the main data interface between GLD and the device-specific driver.
The GLD facility currently supports devices of type DL_ETHER, DL_TPR, and DL_FDDI. GLD drivers are expected to process fully-formed MAC-layer packets and should not perform logical link control (LLC) handling.
Note -
Support for the DL_TPR and DL_FDDI media types in GLD is obsolete and may be removed in a future release of illumos.
In some cases, it may be necessary or desirable to implement a full DLPI-compliant driver without using the GLD facility. This is true for devices that are not IEEE 802-style LAN devices, or where a device type or DLPI service not supported by GLD is required.
SAP 0 denotes that the user wishes to use 802.3 mode. In transmission, GLD checks the destination SAP value of the DL_UNITDATA_REQ and the SAP value to which the stream is bound. If both are 0, the GLD computes the length of the packet payload and transmits 802.3 frames having that length in the MAC frame header type field. Such lengths will never exceed 1500.
All frames received from the media that have a type field in the range [0-1500] are assumed to be 802.3 frames and are routed up all open streams that are in 802.3 mode, (those streams bound to a SAP value in of 0. If more than one stream is in 802.3 mode, the incoming frame is duplicated and routed up each such stream.
Streams bound to a SAP value of 1536 or greater receive incoming packets whose Ethernet MAC header type value exactly matches the value of the SAP to which the stream is bound. SAP values in the range [1-1535] are undefined and should not be used.
Support for the DL_TPR and DL_FDDI media types in GLD is obsolete and may be removed in a future release of illumos.
For media types DL_TPR and DL_FDDI, GLD implements minimal SNAP (Sub-Net Access Protocol) processing for SAP values of 1536 or greater. A SAP value of 0 denotes that the user wishes to use LLC mode. SAP values in the range [1-1535] have undefined semantics and should not be used.
SNAP headers are carried under LLC headers with destination SAP 0xAA. For outgoing packets with SAP values greater than 1535, GLD creates an LLC+SNAP header that always looks like:
``AA AA 03 00 00 00 XX XX''
where ``XX XX'' represents the 16-bit SAP, corresponding to the Ethernet V2 style ``type.'' This is the only class of SNAP header that is processed - non-zero OUI fields, and LLC control fields other than 03 are considered to be LLC packets with SAP 0xAA.
A DL_UNITDATA_REQ message specifying a destination SAP value of 0, passed down a stream bound to SAP 0, is assumed to contain an LLC packet and will not undergo SNAP processing.
Incoming packets are examined to ascertain whether they fall into the format specified above. Packets that do will be passed to streams bound to the packet's 16-bit SNAP type, as well as being passed to any stream in LLC mode (those bound to a SAP value of 0).
Support for the DL_TPR media type in GLD is obsolete and may be removed in a future release of illumos.
For type DL_TPR devices, GLD implements minimal support for source routing. Source routing enables a station that is sending a packet across a bridged medium to specify (in the packet MAC header) routing information that determines the route that the packet will take through the network.
Functionally, the source routing support provided by GLD learns routes, solicits and responds to requests for information about possible multiple routes and selects among the multiple routes that are available. It adds Routing Information Fields to the MAC headers of outgoing packets and recognizes such fields in incoming packets.
GLD's source routing support does not implement the full Route Determination Entity (RDE) specified in ISO 8802-2 (IEEE 802.2) Section 9. However, it is designed to interoperate with any such implementations that may exist in the same (or a bridged) network.
The DL_INFO_REQ primitive requests information about the DLPI stream. The message consists of one M_PROTO message block. GLD returns device-dependent values in the DL_INFO_ACK response to this request, based on information the GLD-based driver specified in the gld_mac_info(9S) structure passed to gld_register(). However GLD returns the following values on behalf of all GLD-based drivers:
The version is DL_VERSION_2.
The service mode is DL_CLDLS \(em GLD implements connectionless-mode service.
The provider style is DL_STYLE1 or DL_STYLE2, depending on how the stream was opened.
The DL_ATTACH_REQ primitive is called to associate a PPA with a stream. This request is needed for Style 2 DLS providers to identify the physical medium over which the communication will transpire. Upon completion, the state changes from DL_UNATTACHED to DL_UNBOUND. The message consists of one M_PROTO message block. This request may not be issued when using the driver in Style 1 mode; streams opened using Style 1 are already attached to a PPA by the time the open completes.
The DL_DETACH_REQ primitive requests to detach the PPA from the stream. This is only allowed if the stream was opened using Style 2.
The DL_BIND_REQ and DL_UNBIND_REQ primitives bind and unbind a DLSAP to the stream. The PPA associated with each stream will have been initialized upon completion of the processing of the DL_BIND_REQ. Multiple streams may be bound to the same SAP; each such stream receives a copy of any packets received for that SAP.
The DL_ENABMULTI_REQ and DL_DISABMULTI_REQ primitives enable and disable reception of individual multicast group addresses. A set of multicast addresses may be iteratively created and modified on a per-stream basis using these primitives. The stream must be attached to a PPA for these primitives to be accepted.
The DL_PROMISCON_REQ and DL_PROMISCOFF_REQ primitives enable and disable promiscuous mode on a per-stream basis, either at a physical level or at the SAP level. The DL Provider will route all received messages on the media to the DLS user until either a DL_DETACH_REQ or a DL_PROMISCOFF_REQ is received or the stream is closed. Physical level promiscuous mode may be specified for all packets on the medium or for multicast packets only. The stream must be attached to a PPA for these primitives to be accepted.
The DL_UNITDATA_REQ primitive is used to send data in a connectionless transfer. Because this is an unacknowledged service, there is no guarantee of delivery. The message consists of one M_PROTO message block followed by one or more M_DATA blocks containing at least one byte of data.
The DL_UNITDATA_IND type is used when a packet is received and is to be passed upstream. The packet is put into an M_PROTO message with the primitive set to DL_UNITDATA_IND.
The DL_PHYS_ADDR_REQ primitive returns the MAC address currently associated with the PPA attached to the stream, in the DL_PHYS_ADDR_ACK primitive. When using style 2, this primitive is only valid following a successful DL_ATTACH_REQ.
The DL_SET_PHYS_ADDR_REQ primitive changes the MAC address currently associated with the PPA attached to the stream. This primitive affects all other current and future streams attached to this device. Once changed, all streams currently or subsequently opened and attached to this device will obtain this new physical address. The new physical address will remain in effect until this primitive is used to change the physical address again or the driver is reloaded.
The DL_GET_STATISTICS_REQ primitive requests a DL_GET_STATISTICS_ACK response containing statistics information associated with the PPA attached to the stream. Style 2 streams must be attached to a particular PPA using DL_ATTACH_REQ before this primitive will be successful.
GLD supports the DL_NOTE_LINK_UP, DL_NOTE_LINK_DOWN and DL_NOTE_SPEED notifications using the DL_NOTIFY_IND primitive. See dlpi(4P).
GLD-based drivers must also specify a link dependency on "misc/gld". (See the -N option in ld(1)).
GLD implements the open(9E) and close(9E) functions and the required STREAMS put(9E) and srv(9E) functions on behalf of the device-specific driver. GLD also implements the getinfo(9E) function for the driver.
The mi_idname element of the module_info(9S) structure is a string specifying the name of the driver. This must exactly match the name of the driver module as it exists in the file system.
The read-side qinit(9S) structure should specify the following elements as shown below: qi_putp
NULL
gld_rsrv
gld_open
gld_close
The write-side qinit(9S) structure should specify the following elements as shown below: qi_putp
gld_wput
gld_wsrv
NULL
NULL
The devo_getinfo element of the dev_ops(9S) structure should specify gld_getinfo as the getinfo(9E) routine.
The driver's attach(9E) function does all the work of associating the hardware-specific device driver with the GLD facility and preparing the device and driver for use.
The attach(9E) function allocates a gld_mac_info(9S) (``macinfo'') structure using gld_mac_alloc(). The driver usually needs to save more information per device than is defined in the macinfo structure; it should allocate the additional required data structure and save a pointer to it in the gldm_private member of the gld_mac_info(9S) structure.
The attach(9E) routine must initialize the macinfo structure as described in gld_mac_info(9S) and then call gld_register() to link the driver with the GLD module. The driver should map registers if necessary and be fully initialized and prepared to accept interrupts before calling gld_register(). The attach(9E) function should add interrupts but not enable the device to generate them. The driver should reset the hardware before calling gld_register() to ensure it is quiescent; the device must not be started or put into a state where it may generate an interrupt before gld_register() is called. That will be done later when GLD calls the driver's gldm_start() entry point described in gld(9E). Once gld_register() succeeds, the gld(9E) entry points may be called by GLD at any time.
The attach(9E) routine should return DDI_SUCCESS if gld_register() succeeds. If gld_register() fails, it returns DDI_FAILURE and the attach(9E) routine should deallocate any resources it allocated before calling gld_register() and then also return DDI_FAILURE. Under no circumstances should a failed macinfo structure be reused; it should be deallocated using gld_mac_free().
The detach(9E) function should attempt to unregister the driver from GLD. This is done by calling gld_unregister() described in gld(9F). The detach(9E) routine can get a pointer to the needed gld_mac_info(9S) structure from the device's private data using ddi_get_driver_private(9F). gld_unregister() checks certain conditions that could require that the driver not be detached. If the checks fail, gld_unregister() returns DDI_FAILURE, in which case the driver's detach(9E) routine must leave the device operational and return DDI_FAILURE. If the checks succeed, gld_unregister() ensures that the device interrupts are stopped, calling the driver's gldm_stop() routine if necessary, unlinks the driver from the GLD framework, and returns DDI_SUCCESS. In this case, the detach(9E) routine should remove interrupts, deallocate any data structures allocated in the attach(9E) routine, using gld_mac_free() to deallocate the macinfo structure, and return DDI_SUCCESS. It is important to remove the interrupt before calling gld_mac_free().
GLD maintains and reports the following statistics. rbytes64
Total bytes successfully received on the interface (64 bits).
Total bytes successfully received on the interface.
Total bytes requested to be transmitted on the interface (64 bits).
Total bytes requested to be transmitted on the interface.
Total packets successfully received on the interface (64 bits).
Total packets successfully received on the interface.
Total packets requested to be transmitted on the interface (64 bits).
Total packets requested to be transmitted on the interface.
Multicast packets successfully received, including group and functional addresses (long).
Multicast packets requested to be transmitted, including group and functional addresses (long).
Broadcast packets successfully received (long).
Broadcast packets requested to be transmitted (long).
Valid received packets not accepted by any stream (long).
Packets discarded on output because transmit buffer was busy, or no buffer could be allocated for transmit (long).
Times a received packet could not be put up a stream because the queue was flow controlled (long).
Times transmit was retried after having been delayed due to lack of resources (long).
Current ``promiscuous'' state of the interface (string).
The device dependent driver counts the following statistics, keeping track of them in a private per-instance structure. When GLD is asked to report statistics, it calls the driver's gldm_get_stats() entry point, as described in gld(9E), to update the device-specific statistics in the gld_stats(9S) structure. GLD then reports the updated statistics using the named statistics variables below. ifspeed
Current estimated bandwidth of the interface in bits per second (64 bits).
Current media type in use by the device (string).
Times interrupt handler was called and claimed the interrupt (long).
Times a valid incoming packet was known to have been discarded because no buffer could be allocated for receive (long).
Total packets received that couldn't be processed because they contained errors (long).
Total packets that weren't successfully transmitted because of errors (long).
Packets known to have been dropped by the hardware on receive (long).
Times FIFO underflowed on transmit (long).
Times receiver overflowed during receive (long).
The following group of statistics applies to networks of type DL_ETHER; these are maintained by device-specific drivers of that type, as above. align_errors
Packets received with framing errors (not an integral number of octets) (long).
Packets received with CRC errors (long).
Current duplex mode of the interface (string).
Times carrier was lost or never detected on a transmission attempt (long).
Ethernet collisions during transmit (long).
Frames where excess collisions occurred on transmit, causing transmit failure (long).
Times a transmit collision occurred late (after 512 bit times) (long).
Packets without collisions where first transmit attempt was delayed because the medium was busy (long).
Packets successfully transmitted with exactly one collision.
Packets successfully transmitted with multiple collisions.
Times SQE test error was reported.
Packets encountering transmit MAC failures, except carrier and collision failures.
Packets received with MAC errors, except align, fcs, and toolong errors.
Packets received larger than the maximum permitted length.
Packets received smaller than the minimum permitted length (long).
The following group of statistics applies to networks of type DL_TPR; these are maintained by device-specific drivers of that type, as above. line_errors
Packets received with non-data bits or FCS errors.
Times an absence of transitions for five half-bit timers was detected.
Times loss of signal condition on the ring was detected.
Times an AMP or SMP frame in which A is equal to C is equal to 0, was followed by another such SMP frame without an intervening AMP frame.
Times the station recognized an internal error.
Times the TRR timer expired during transmit.
Times a frame addressed to this station was received with the FS field A bit set to 1.
Times the station acting as the active monitor recognized an error condition that needed a token transmitted.
Times the frequency of the incoming signal differed from the expected frequency.
The following group of statistics applies to networks of type DL_FDDI; these are maintained by device-specific drivers of that type, as above. mac_errors
Frames detected in error by this MAC that had not been detected in error by another MAC.
Frames received with format errors such that the frame was stripped.
Number of tokens received (total of non-restricted and restricted).
Number of times that TVX has expired.
Number of TRT expirations since this MAC was reset or a token was received.
Number of times the ring has entered the ``Ring_Operational'' state from the ``Ring Not Operational'' state.
loadable kernel module
Writing Device Drivers
Promiscuous mode may only be entered by streams that are attached to a PPA.
The physical address of a PPA may be changed by the superuser while other streams are bound to the same PPA.