source: trunk/hal/tsar_mips32/drivers/soclib_nic.h @ 658

/*
 * soclib_nic.h - SOCLIB_NIC (Network Interface Controler) driver definition.
 *
 * Author    Alain Greiner (2016,2017,2018,2019,2020)
 *
 * Copyright (c) UPMC Sorbonne Universites
 *
 * This file is part of ALMOS-MKH.
 *
 * ALMOS-MKH 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; version 2.0 of the License.
 *
 * ALMOS-MKH is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with ALMOS-MKH; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
 */

#ifndef _SOCLIB_NIC_H_
#define _SOCLIB_NIC_H_

#include <chdev.h>
#include <hal_kernel_types.h>

/********************************************************************************************
 * This driver supports the Soclib VciMasterNic component, that is a GMII compliant
 * multi-channels Gigabit Ethernet controler with a DMA capability. 
 *
 * To improve the throughput, this component supports several channels.
 * The channel index is derived from the (source) remote IP address and port
 * for the received (RX) packets, and from the (destination) remote IP address
 * and port for the sent (TX) packets. The actual number of channels is an 
 * hardware parameter that cannot be larger than 8.
 *
 * The Ethernet packet length can have any value, in range [42,1538] bytes.
 * 
 * For each channel, the received packets (RX) and the sent packets (TX) are stored
 * in two memory mapped software FIFOs, called NIC_TX_QUEUE and NIC_RX_QUEUE, implemented
 * as chained buffers (chbuf). Each slot in these FIFOs is a container, containing one
 * single packet. The number of containers, defining the queue depth, is a software defined 
 * parameter. The data transfer unit between is a container (one single packet).
 *
 * - The "container" structure contains a 2040 bytes data buffer, the packet length, and
 *   the container state : full (owned by the reader) / empty (owned by the writer).
 *   For each container, the state variable is used as a SET/RESET flip-flop to synchronize 
 *   the software server thread, and the hardware NIC DMA engines. 
 *
 * - The "chbuf" descriptor contains an array of local pointers on the containers, used 
 *   by the software driver, an array of physical addresses, used by the DMA engines and
 *   two "pointers", defining the current container to be written (wid) by the writer,
 *   and the current container to be read (rid) by the reader.
 *
 * WARNING : Both the chbuf descriptor (containing the <rid> and wid> indexes), and the
 *           containers themselve containing the <data> and the <sts> are shared variables
 *           accessed by the server threads (accessing the L2 caches), and by the NIC_DMA
 *           engines (accessing directly the L3 caches).
 *           Therefore, the L2/L3 cache coherence must be handled by this NIC driver for
 *           the INIT, READ & WRITE commands, using the MMC SYNC & INVAL commands.  
 *******************************************************************************************/

/********************************************************************************************
 *   This section defines the NIC device addressable registers offsets:
 * - The 8 channels registers are stored in the first 512 bytes (8 * 64 bytes).
 * - The global registers are stored in the next 256 bytes (global offset is 512 bytes).
 *   All values defined below are number of words (one word = 4 bytes).  
 *******************************************************************************************/

enum SoclibMasterNicGlobalRegisters 
{
    NIC_G_CHANNELS                   = 1,   /*! read_only  : number of channels            */
    NIC_G_NPKT_RESET                 = 2,   /*! write-only : reset packets counters        */

    NIC_G_NPKT_RX_G2S_RECEIVED       = 10,  /*! number of packets received                 */
    NIC_G_NPKT_RX_G2S_DISCARDED      = 11,  /*! number of RX packets discarded by RX_G2S   */

    NIC_G_NPKT_RX_DES_SUCCESS        = 12,  /*! number of RX packets transmited by RX_DES  */
    NIC_G_NPKT_RX_DES_TOO_SMALL      = 13,  /*! number of discarded too small RX packets   */
    NIC_G_NPKT_RX_DES_TOO_BIG        = 14,  /*! number of discarded too big RX packets     */
    NIC_G_NPKT_RX_DES_MFIFO_FULL     = 15,  /*! number of discarded RX packets fifo full   */
    NIC_G_NPKT_RX_DES_CRC_FAIL       = 16,  /*! number of discarded RX packets CRC32       */

    NIC_G_NPKT_RX_DISP_RECEIVED      = 17,  /*! number of packets received by RX_DISPATCH  */
    NIC_G_NPKT_RX_DISP_DST_FAIL      = 18,  /*! number of discarded RX packets for DST MAC */
    NIC_G_NPKT_RX_DISP_CH_FULL       = 19,  /*! number of discarded RX packets cont full   */

    NIC_G_NPKT_TX_DISP_RECEIVED      = 41,  /*! number of packets received by TX_DISPATCH  */
    NIC_G_NPKT_TX_DISP_TOO_SMALL     = 42,  /*! number of discarded too small TX packets   */
    NIC_G_NPKT_TX_DISP_TOO_BIG       = 43,  /*! number of discarded too big TX packets     */
    NIC_G_NPKT_TX_DISP_TRANSMIT      = 44,  /*! number of discarded TX packets for SRC MAC */

    NIC_GLOBAL_OFFSET                = 128, /*! 512  bytes reserved for channel registers  */
};

enum SoclibMasterNicChannelRegisters 
{
    NIC_RX_CHANNEL_RUN        = 0,    /*! write-only : RX channel activation/desactivation */
    NIC_RX_CHBUF_DESC_LO      = 1,    /*! read-write : RX chbuf descriptor 32 LSB bits     */
    NIC_RX_CHBUF_DESC_HI      = 2,    /*! read-write : RX chbuf descriptor 32 MSB bits     */
    NIC_RX_CHBUF_NBUFS        = 3,    /*! read-write : RX chbuf depth (number of buffers)  */
    NIC_RX_CHANNEL_STATE      = 4,    /*! read-only  : RX channel status                   */

    NIC_TX_CHANNEL_RUN        = 8,    /*! write-only : TX channel activation               */
    NIC_TX_CHBUF_DESC_LO      = 9,    /*! read-write : TX chbuf descriptor 32 LSB bits     */
    NIC_TX_CHBUF_DESC_HI      = 10,   /*! read-write : TX chbuf descriptor 32 MSB bits     */
    NIC_TX_CHBUF_NBUFS        = 11,   /*! read-write : TX chbuf depth (number of buffers)  */
    NIC_TX_CHANNEL_STATE      = 12,   /*! read-only  : TX channel status                   */

    NIC_CHANNEL_SPAN          = 16    /*! 64 bytes per channel                             */
};

/********************************************************************************************
 *  Return values for the RX/TX channel master FSM status
 *******************************************************************************************/

enum SoclibMasterNicStatusValues
{
    NIC_CHANNEL_STATUS_IDLE  = 0,
    NIC_CHANNEL_STATUS_ERROR = 1,
    NIC_CHANNEL_STATUS_BUSY  = 2,     // busy for any value >= 2
};

/********************************************************************************************
 * This structure defines the chbuf descriptor, used to implement both the RX and TX packets
 * queues. Each container contains one single packet, and has only two states (full/empty).
 * All containers are allocated in the same cluster as the associated NIC chdev descriptor.
 * The chbuf descriptor contains:
 * - an array of containers physical addresses cont_pad[], used by the DMA engines.
 * - an array of container pointers cont_ptr[], used by the kernel threads.
 * - two indexes rid and wid, defining the next container for read & write respectively.
 * WARNING : dont modify this structure, used by the DMA engines.
 *******************************************************************************************/

#define SOCLIB_NIC_CHBUF_DEPTH   8

typedef struct nic_chbuf_s
{
    uint32_t   wid;                              /*! current container write index         */
    uint32_t   rid;                              /*! current container read index          */
    uint64_t   cont_pad[SOCLIB_NIC_CHBUF_DEPTH]; /*! containers physical base addresses    */
    uint32_t * cont_ptr[SOCLIB_NIC_CHBUF_DEPTH]; /*! containers virtual base addresses     */
}
nic_chbuf_t;

/********************************************************************************************
 * This structure defines the container descriptor format.
 *******************************************************************************************/

typedef struct nic_cont_s
{
    uint8_t    buf[2040];                        /*! Ethernet packet (42 to 1538 bytes     */
    uint32_t   length;                           /*! actual packet length in bytes         */
    uint32_t   state;                            /*! zero == empty / non zero == full      */
}
nic_cont_t;

/********************************************************************************************
 *    Driver access functions 
 *******************************************************************************************/

/********************************************************************************************
 * This function initializes the SOCLIB_NIC hardware registers, for one NIC chdev 
 * (one direction of one channel). It allocates memory for the RX and TX containers,
 * it allocates and initializes the RX and TX chbuf descriptors.
 * It allocates one WTI mailbox for the IRQ signaling availability of an RX full container,
 * or a TX empty container, and route the WTI IRQ to the core running the server thread.
 * It activates the TX and RX DMA engines.
 ********************************************************************************************
 * @ chdev  :  pointer on NIC chdev descriptor.
 *******************************************************************************************/
extern void soclib_nic_init( chdev_t * chdev );

/********************************************************************************************
 * 1) This function implement the READ & WRITE commands, used by the local server threads
 *    to access the NIC_TX & NIC_RX packets queues. These commands don't access the NIC 
 *    registers but only the TX and RX chbufs implementing the queues:
 *
 * <READ>
 *   Move a packet from the NIC_RX queue to the command "buffer".
 *   Return 0 in "status" if queue empty / return length in "status" if success.
 *
 * <WRITE>
 *   Move a packet of a given "length" from the command "buffer" to the TX queue.
 *   Return 0 in "status" if queue full / return length in "status" if success.
 *
 * 2) It implements the GET_KEY / SET_RUN / GET_INSTRU / CLEAR_INSTRU commands,
 *    directly called by any thread running in any cluster to access the NIC registers :
 *
 * <GET_KEY>
 *   Return in "status" argument the channel index (key) computed from the IP address
 *   defined in the "buffer" argument, and from the port defined by the "length" argument.
 *
 * <SET_RUN>
 *   Enable/disable the NIC_TX_CHANNEL_RUN & NIC_RX_CHANNEL_RUN registers.The channel
 *   is defined in the "length" argument / run value defined in the "status" argument.
 *
 * <GET_INSTRU>
 *   Display on kernel TXT0 the contaent of all NIC instrumentation registers.
 *
 * <CLEAR_INSTRU>
 *   Reset all NIC instrumentation registers.
 *
 * Note (i)  For the NIC device, the command arguments are always registered in the calling
 *           thread descriptor (i.e. the calling thread is always the client thread).
 * Note (ii) The actual command mnemonics are defined in the <dev_nic.h> file.
 *******************************************************************************************/
extern void soclib_nic_cmd( xptr_t thread_xp );

/********************************************************************************************
 * This ISR is executed when a new RX container has been moved to an empty TX queue,
 * or when a TX container has been removed from a full TX queue. In both cases, it
 * reactivate the corresponding server thread from the BLOCKED_ISR condition.
 * It is also executed in case of error reported by the DMA engines accessing the TX or RX
 * queues. It simply print an error message on the kernel terminal.
 * TODO improve this error handling...
 ********************************************************************************************
 * @ chdev     : local pointer on NIC chdev descriptor.
 *******************************************************************************************/
extern void soclib_nic_isr( chdev_t * chdev );


#endif /* _BLOCK_H_ */