The Design and Implementation of the FreeBSD Operating System, Second Edition
Now available: The Design and Implementation of the FreeBSD Operating System (Second Edition)


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FreeBSD/Linux Kernel Cross Reference
sys/mips/idt/if_krreg.h

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    1 /*-
    2  * Copyright (C) 2007 
    3  *      Oleksandr Tymoshenko <gonzo@freebsd.org>. All rights reserved.
    4  *
    5  * Redistribution and use in source and binary forms, with or without
    6  * modification, are permitted provided that the following conditions
    7  * are met:
    8  * 1. Redistributions of source code must retain the above copyright
    9  *    notice, this list of conditions and the following disclaimer.
   10  * 2. Redistributions in binary form must reproduce the above copyright
   11  *    notice, this list of conditions and the following disclaimer in the
   12  *    documentation and/or other materials provided with the distribution.
   13  *
   14  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
   15  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
   16  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
   17  * IN NO EVENT SHALL THE AUTHOR OR HIS RELATIVES BE LIABLE FOR ANY DIRECT,
   18  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
   19  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
   20  * SERVICES; LOSS OF MIND, USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
   21  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
   22  * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
   23  * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
   24  * THE POSSIBILITY OF SUCH DAMAGE.
   25  *
   26  * $FreeBSD: releng/8.0/sys/mips/idt/if_krreg.h 178173 2008-04-13 07:44:55Z imp $
   27  *
   28  */
   29 
   30 #ifndef __IF_KRREG_H__
   31 #define __IF_KRREG_H__
   32 
   33 #define KR_ETHINTFC     0x0000  /* Ethernet interface control             */
   34 #define         ETH_INTFC_EN    0x0001
   35 #define         ETH_INTFC_RIP   0x0004
   36 #define         ETH_INTFC_EN    0x0001
   37 #define KR_ETHFIFOTT    0x0004  /* Ethernet FIFO transmit threshold       */
   38 #define KR_ETHARC       0x0008  /* Ethernet address recognition control   */
   39 #define KR_ETHHASH0     0x000C  /* Ethernet hash table 0                  */
   40 #define KR_ETHHASH1     0x0010  /* Ethernet hash table 1                  */
   41 #define KR_ETHPFS       0x0024  /* Ethernet pause frame status            */
   42 #define KR_ETHMCP       0x0028  /* Ethernet management clock prescalar    */
   43 #define KR_ETHSAL0      0x0100  /* Ethernet station address 0 low         */
   44 #define KR_ETHSAH0      0x0104  /* Ethernet station address 0 high        */
   45 #define KR_ETHSAL1      0x0108  /* Ethernet station address 1 low         */
   46 #define KR_ETHSAH1      0x010C  /* Ethernet station address 1 high        */
   47 #define KR_ETHSAL2      0x0110  /* Ethernet station address 2 low         */
   48 #define KR_ETHSAH2      0x0114  /* Ethernet station address 2 high        */
   49 #define KR_ETHSAL3      0x0118  /* Ethernet station address 3 low         */
   50 #define KR_ETHSAH3      0x011C  /* Ethernet station address 3 high        */
   51 #define KR_ETHRBC       0x0120  /* Ethernet receive byte count            */
   52 #define KR_ETHRPC       0x0124  /* Ethernet receive packet count          */
   53 #define KR_ETHRUPC      0x0128  /* Ethernet receive undersized packet cnt */
   54 #define KR_ETHRFC       0x012C  /* Ethernet receive fragment count        */
   55 #define KR_ETHTBC       0x0130  /* Ethernet transmit byte count           */
   56 #define KR_ETHGPF       0x0134  /* Ethernet generate pause frame          */
   57 #define KR_ETHMAC1      0x0200  /* Ethernet MAC configuration 1           */
   58 #define         KR_ETH_MAC1_RE  0x01
   59 #define         KR_ETH_MAC1_PAF 0x02
   60 #define         KR_ETH_MAC1_MR  0x80
   61 #define KR_ETHMAC2      0x0204  /* Ethernet MAC configuration 2           */
   62 #define         KR_ETH_MAC2_FD  0x01
   63 #define         KR_ETH_MAC2_FLC 0x02
   64 #define         KR_ETH_MAC2_HFE 0x04
   65 #define         KR_ETH_MAC2_DC  0x08
   66 #define         KR_ETH_MAC2_CEN 0x10
   67 #define         KR_ETH_MAC2_PEN 0x20
   68 #define         KR_ETH_MAC2_VPE 0x08
   69 #define KR_ETHIPGT      0x0208  /* Ethernet back-to-back inter-packet gap */
   70 #define KR_ETHIPGR      0x020C  /* Ethernet non back-to-back inter-packet gap */
   71 #define KR_ETHCLRT      0x0210  /* Ethernet collision window retry        */
   72 #define KR_ETHMAXF      0x0214  /* Ethernet maximum frame length          */
   73 #define KR_ETHMTEST     0x021C  /* Ethernet MAC test                      */
   74 #define KR_MIIMCFG      0x0220  /* MII management configuration           */
   75 #define         KR_MIIMCFG_R    0x8000  
   76 #define KR_MIIMCMD      0x0224  /* MII management command                 */
   77 #define         KR_MIIMCMD_RD   0x01
   78 #define         KR_MIIMCMD_SCN  0x02
   79 #define KR_MIIMADDR     0x0228  /* MII management address                 */
   80 #define KR_MIIMWTD      0x022C  /* MII management write data              */
   81 #define KR_MIIMRDD      0x0230  /* MII management read data               */
   82 #define KR_MIIMIND      0x0234  /* MII management indicators              */
   83 #define         KR_MIIMIND_BSY  0x1
   84 #define         KR_MIIMIND_SCN  0x2
   85 #define         KR_MIIMIND_NV   0x4
   86 #define KR_ETHCFSA0     0x0240  /* Ethernet control frame station address 0   */
   87 #define KR_ETHCFSA1     0x0244  /* Ethernet control frame station address 1   */
   88 #define KR_ETHCFSA2     0x0248  /* Ethernet control frame station address 2   */
   89 
   90 #define KR_ETHIPGT_HALF_DUPLEX  0x12
   91 #define KR_ETHIPGT_FULL_DUPLEX  0x15
   92 
   93 #define KR_TIMEOUT      0xf000
   94 #define KR_MII_TIMEOUT  0xf000
   95 
   96 #define KR_RX_IRQ       40
   97 #define KR_TX_IRQ       41
   98 #define KR_RX_UND_IRQ   42
   99 #define KR_TX_OVR_IRQ   43
  100 #define RC32434_DMA_BASE_ADDR   MIPS_PHYS_TO_KSEG1(0x18040000)
  101 #define         DMA_C           0x00
  102 #define                 DMA_C_R         0x01
  103 #define                 DMA_C_ABORT     0x10
  104 #define         DMA_S           0x04
  105 #define                 DMA_S_F         0x01
  106 #define                 DMA_S_D         0x02
  107 #define                 DMA_S_C         0x04
  108 #define                 DMA_S_E         0x08
  109 #define                 DMA_S_H         0x10
  110 #define         DMA_SM          0x08
  111 #define                 DMA_SM_F        0x01
  112 #define                 DMA_SM_D        0x02
  113 #define                 DMA_SM_C        0x04
  114 #define                 DMA_SM_E        0x08
  115 #define                 DMA_SM_H        0x10
  116 #define         DMA_DPTR        0x0C
  117 #define         DMA_NDPTR       0x10
  118 
  119 #define RC32434_DMA_CHAN_SIZE   0x14
  120 #define KR_DMA_RXCHAN           0
  121 #define KR_DMA_TXCHAN           1
  122 
  123 #define KR_DMA_READ_REG(chan, reg) \
  124         (*(volatile uint32_t *) \
  125             (RC32434_DMA_BASE_ADDR + chan * RC32434_DMA_CHAN_SIZE + reg))
  126 
  127 #define KR_DMA_WRITE_REG(chan, reg, val) \
  128         ((*(volatile uint32_t *)        \
  129             (RC32434_DMA_BASE_ADDR + chan * RC32434_DMA_CHAN_SIZE + reg)) = val)
  130 
  131 #define KR_DMA_SETBITS_REG(chan, reg, bits) \
  132         KR_DMA_WRITE_REG((chan), (reg), KR_DMA_READ_REG((chan), (reg)) | (bits))
  133 
  134 #define KR_DMA_CLEARBITS_REG(chan, reg, bits)           \
  135         KR_DMA_WRITE_REG((chan), (reg),                 \
  136             KR_DMA_READ_REG((chan), (reg)) & ~(bits))
  137 
  138 struct kr_desc {
  139         uint32_t        kr_ctl;
  140         uint32_t        kr_ca;
  141         uint32_t        kr_devcs;
  142         uint32_t        kr_link;
  143 };
  144 
  145 
  146 #define KR_DMASIZE(len)         ((len)  & ((1 << 18)-1))                
  147 #define KR_PKTSIZE(len)         ((len & 0xffff0000) >> 16)
  148 
  149 #define KR_CTL_COF      0x02000000
  150 #define KR_CTL_COD      0x04000000
  151 #define KR_CTL_IOF      0x08000000
  152 #define KR_CTL_IOD      0x10000000
  153 #define KR_CTL_T        0x20000000
  154 #define KR_CTL_D        0x40000000
  155 #define KR_CTL_F        0x80000000
  156 
  157 #define KR_DMARX_DEVCS_RSV      0x00000001
  158 #define KR_DMARX_DEVCS_LD       0x00000002
  159 #define KR_DMARX_DEVCS_ROK      0x00000004
  160 #define KR_DMARX_DEVCS_FM       0x00000008
  161 #define KR_DMARX_DEVCS_MP       0x00000010
  162 #define KR_DMARX_DEVCS_BP       0x00000020
  163 #define KR_DMARX_DEVCS_VLT      0x00000040
  164 #define KR_DMARX_DEVCS_CF       0x00000080
  165 #define KR_DMARX_DEVCS_OVR      0x00000100
  166 #define KR_DMARX_DEVCS_CRC      0x00000200
  167 #define KR_DMARX_DEVCS_CV       0x00000400
  168 #define KR_DMARX_DEVCS_DB       0x00000800
  169 #define KR_DMARX_DEVCS_LE       0x00001000
  170 #define KR_DMARX_DEVCS_LOR      0x00002000
  171 #define KR_DMARX_DEVCS_CES      0x00004000
  172 
  173 #define KR_DMATX_DEVCS_FD       0x00000001
  174 #define KR_DMATX_DEVCS_LD       0x00000002
  175 #define KR_DMATX_DEVCS_OEN      0x00000004
  176 #define KR_DMATX_DEVCS_PEN      0x00000008
  177 #define KR_DMATX_DEVCS_CEN      0x00000010
  178 #define KR_DMATX_DEVCS_HEN      0x00000020
  179 #define KR_DMATX_DEVCS_TOK      0x00000040
  180 #define KR_DMATX_DEVCS_MP       0x00000080
  181 #define KR_DMATX_DEVCS_BP       0x00000100
  182 #define KR_DMATX_DEVCS_UND      0x00000200
  183 #define KR_DMATX_DEVCS_OF       0x00000400
  184 #define KR_DMATX_DEVCS_ED       0x00000800
  185 #define KR_DMATX_DEVCS_EC       0x00001000
  186 #define KR_DMATX_DEVCS_LC       0x00002000
  187 #define KR_DMATX_DEVCS_TD       0x00004000
  188 #define KR_DMATX_DEVCS_CRC      0x00008000
  189 #define KR_DMATX_DEVCS_LE       0x00010000
  190 
  191 #define KR_RX_RING_CNT          128
  192 #define KR_TX_RING_CNT          128
  193 #define KR_TX_RING_SIZE         sizeof(struct kr_desc) * KR_TX_RING_CNT
  194 #define KR_RX_RING_SIZE         sizeof(struct kr_desc) * KR_RX_RING_CNT
  195 #define KR_RING_ALIGN           sizeof(struct kr_desc)
  196 #define KR_RX_ALIGN             sizeof(uint32_t)
  197 #define KR_MAXFRAGS             8
  198 #define KR_TX_INTR_THRESH       8
  199 
  200 #define KR_TX_RING_ADDR(sc, i)  \
  201     ((sc)->kr_rdata.kr_tx_ring_paddr + sizeof(struct kr_desc) * (i))
  202 #define KR_RX_RING_ADDR(sc, i)  \
  203     ((sc)->kr_rdata.kr_rx_ring_paddr + sizeof(struct kr_desc) * (i))
  204 #define KR_INC(x,y)             (x) = (((x) + 1) % y)
  205 
  206 struct kr_txdesc {
  207         struct mbuf     *tx_m;
  208         bus_dmamap_t    tx_dmamap;
  209 };
  210 
  211 struct kr_rxdesc {
  212         struct mbuf     *rx_m;
  213         bus_dmamap_t    rx_dmamap;
  214         struct kr_desc  *desc;
  215         /* Use this values on error instead of allocating new mbuf */
  216         uint32_t        saved_ctl, saved_ca; 
  217 };
  218 
  219 struct kr_chain_data {
  220         bus_dma_tag_t           kr_parent_tag;
  221         bus_dma_tag_t           kr_tx_tag;
  222         struct kr_txdesc        kr_txdesc[KR_TX_RING_CNT];
  223         bus_dma_tag_t           kr_rx_tag;
  224         struct kr_rxdesc        kr_rxdesc[KR_RX_RING_CNT];
  225         bus_dma_tag_t           kr_tx_ring_tag;
  226         bus_dma_tag_t           kr_rx_ring_tag;
  227         bus_dmamap_t            kr_tx_ring_map;
  228         bus_dmamap_t            kr_rx_ring_map;
  229         bus_dmamap_t            kr_rx_sparemap;
  230         int                     kr_tx_pkts;
  231         int                     kr_tx_prod;
  232         int                     kr_tx_cons;
  233         int                     kr_tx_cnt;
  234         int                     kr_rx_cons;
  235 };
  236 
  237 struct kr_ring_data {
  238         struct kr_desc          *kr_rx_ring;
  239         struct kr_desc          *kr_tx_ring;
  240         bus_addr_t              kr_rx_ring_paddr;
  241         bus_addr_t              kr_tx_ring_paddr;
  242 };
  243 
  244 struct kr_softc {
  245         struct ifnet            *kr_ifp;        /* interface info */
  246         bus_space_handle_t      kr_bhandle;     /* bus space handle */
  247         bus_space_tag_t         kr_btag;        /* bus space tag */
  248         device_t                kr_dev;
  249         struct resource         *kr_res;
  250         int                     kr_rid;
  251         struct resource         *kr_rx_irq;
  252         void                    *kr_rx_intrhand;
  253         struct resource         *kr_tx_irq;
  254         void                    *kr_tx_intrhand;
  255         struct resource         *kr_rx_und_irq;
  256         void                    *kr_rx_und_intrhand;
  257         struct resource         *kr_tx_ovr_irq;
  258         void                    *kr_tx_ovr_intrhand;
  259         device_t                kr_miibus;
  260         bus_dma_tag_t           kr_parent_tag;
  261         bus_dma_tag_t           kr_tag;
  262         struct mtx              kr_mtx;
  263         struct callout          kr_stat_callout;
  264         struct task             kr_link_task;
  265         struct kr_chain_data    kr_cdata;
  266         struct kr_ring_data     kr_rdata;
  267         int                     kr_link_status;
  268         int                     kr_detach;
  269 };
  270 
  271 #define KR_LOCK(_sc)            mtx_lock(&(_sc)->kr_mtx)
  272 #define KR_UNLOCK(_sc)          mtx_unlock(&(_sc)->kr_mtx)
  273 #define KR_LOCK_ASSERT(_sc)     mtx_assert(&(_sc)->kr_mtx, MA_OWNED)
  274 
  275 /*
  276  * register space access macros
  277  */
  278 #define CSR_WRITE_4(sc, reg, val)       \
  279         bus_space_write_4(sc->kr_btag, sc->kr_bhandle, reg, val)
  280 
  281 #define CSR_READ_4(sc, reg)             \
  282         bus_space_read_4(sc->kr_btag, sc->kr_bhandle, reg)
  283 
  284 #endif /* __IF_KRREG_H__ */

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