/*- * Copyright (C) 2007 * Oleksandr Tymoshenko . All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR OR HIS RELATIVES BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF MIND, USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. * * $FreeBSD$ * */ #ifndef __IF_KRREG_H__ #define __IF_KRREG_H__ #define KR_ETHINTFC 0x0000 /* Ethernet interface control */ #define ETH_INTFC_EN 0x0001 #define ETH_INTFC_RIP 0x0004 #define ETH_INTFC_EN 0x0001 #define KR_ETHFIFOTT 0x0004 /* Ethernet FIFO transmit threshold */ #define KR_ETHARC 0x0008 /* Ethernet address recognition control */ #define KR_ETHHASH0 0x000C /* Ethernet hash table 0 */ #define KR_ETHHASH1 0x0010 /* Ethernet hash table 1 */ #define KR_ETHPFS 0x0024 /* Ethernet pause frame status */ #define KR_ETHMCP 0x0028 /* Ethernet management clock prescalar */ #define KR_ETHSAL0 0x0100 /* Ethernet station address 0 low */ #define KR_ETHSAH0 0x0104 /* Ethernet station address 0 high */ #define KR_ETHSAL1 0x0108 /* Ethernet station address 1 low */ #define KR_ETHSAH1 0x010C /* Ethernet station address 1 high */ #define KR_ETHSAL2 0x0110 /* Ethernet station address 2 low */ #define KR_ETHSAH2 0x0114 /* Ethernet station address 2 high */ #define KR_ETHSAL3 0x0118 /* Ethernet station address 3 low */ #define KR_ETHSAH3 0x011C /* Ethernet station address 3 high */ #define KR_ETHRBC 0x0120 /* Ethernet receive byte count */ #define KR_ETHRPC 0x0124 /* Ethernet receive packet count */ #define KR_ETHRUPC 0x0128 /* Ethernet receive undersized packet cnt */ #define KR_ETHRFC 0x012C /* Ethernet receive fragment count */ #define KR_ETHTBC 0x0130 /* Ethernet transmit byte count */ #define KR_ETHGPF 0x0134 /* Ethernet generate pause frame */ #define KR_ETHMAC1 0x0200 /* Ethernet MAC configuration 1 */ #define KR_ETH_MAC1_RE 0x01 #define KR_ETH_MAC1_PAF 0x02 #define KR_ETH_MAC1_MR 0x80 #define KR_ETHMAC2 0x0204 /* Ethernet MAC configuration 2 */ #define KR_ETH_MAC2_FD 0x01 #define KR_ETH_MAC2_FLC 0x02 #define KR_ETH_MAC2_HFE 0x04 #define KR_ETH_MAC2_DC 0x08 #define KR_ETH_MAC2_CEN 0x10 #define KR_ETH_MAC2_PEN 0x20 #define KR_ETH_MAC2_VPE 0x08 #define KR_ETHIPGT 0x0208 /* Ethernet back-to-back inter-packet gap */ #define KR_ETHIPGR 0x020C /* Ethernet non back-to-back inter-packet gap */ #define KR_ETHCLRT 0x0210 /* Ethernet collision window retry */ #define KR_ETHMAXF 0x0214 /* Ethernet maximum frame length */ #define KR_ETHMTEST 0x021C /* Ethernet MAC test */ #define KR_MIIMCFG 0x0220 /* MII management configuration */ #define KR_MIIMCFG_R 0x8000 #define KR_MIIMCMD 0x0224 /* MII management command */ #define KR_MIIMCMD_RD 0x01 #define KR_MIIMCMD_SCN 0x02 #define KR_MIIMADDR 0x0228 /* MII management address */ #define KR_MIIMWTD 0x022C /* MII management write data */ #define KR_MIIMRDD 0x0230 /* MII management read data */ #define KR_MIIMIND 0x0234 /* MII management indicators */ #define KR_MIIMIND_BSY 0x1 #define KR_MIIMIND_SCN 0x2 #define KR_MIIMIND_NV 0x4 #define KR_ETHCFSA0 0x0240 /* Ethernet control frame station address 0 */ #define KR_ETHCFSA1 0x0244 /* Ethernet control frame station address 1 */ #define KR_ETHCFSA2 0x0248 /* Ethernet control frame station address 2 */ #define KR_ETHIPGT_HALF_DUPLEX 0x12 #define KR_ETHIPGT_FULL_DUPLEX 0x15 #define KR_TIMEOUT 0xf000 #define KR_MII_TIMEOUT 0xf000 #define KR_RX_IRQ 40 #define KR_TX_IRQ 41 #define KR_RX_UND_IRQ 42 #define KR_TX_OVR_IRQ 43 #define RC32434_DMA_BASE_ADDR MIPS_PHYS_TO_KSEG1(0x18040000) #define DMA_C 0x00 #define DMA_C_R 0x01 #define DMA_C_ABORT 0x10 #define DMA_S 0x04 #define DMA_S_F 0x01 #define DMA_S_D 0x02 #define DMA_S_C 0x04 #define DMA_S_E 0x08 #define DMA_S_H 0x10 #define DMA_SM 0x08 #define DMA_SM_F 0x01 #define DMA_SM_D 0x02 #define DMA_SM_C 0x04 #define DMA_SM_E 0x08 #define DMA_SM_H 0x10 #define DMA_DPTR 0x0C #define DMA_NDPTR 0x10 #define RC32434_DMA_CHAN_SIZE 0x14 #define KR_DMA_RXCHAN 0 #define KR_DMA_TXCHAN 1 #define KR_DMA_READ_REG(chan, reg) \ (*(volatile uint32_t *) \ (RC32434_DMA_BASE_ADDR + chan * RC32434_DMA_CHAN_SIZE + reg)) #define KR_DMA_WRITE_REG(chan, reg, val) \ ((*(volatile uint32_t *) \ (RC32434_DMA_BASE_ADDR + chan * RC32434_DMA_CHAN_SIZE + reg)) = val) #define KR_DMA_SETBITS_REG(chan, reg, bits) \ KR_DMA_WRITE_REG((chan), (reg), KR_DMA_READ_REG((chan), (reg)) | (bits)) #define KR_DMA_CLEARBITS_REG(chan, reg, bits) \ KR_DMA_WRITE_REG((chan), (reg), \ KR_DMA_READ_REG((chan), (reg)) & ~(bits)) struct kr_desc { uint32_t kr_ctl; uint32_t kr_ca; uint32_t kr_devcs; uint32_t kr_link; }; #define KR_DMASIZE(len) ((len) & ((1 << 18)-1)) #define KR_PKTSIZE(len) ((len & 0xffff0000) >> 16) #define KR_CTL_COF 0x02000000 #define KR_CTL_COD 0x04000000 #define KR_CTL_IOF 0x08000000 #define KR_CTL_IOD 0x10000000 #define KR_CTL_T 0x20000000 #define KR_CTL_D 0x40000000 #define KR_CTL_F 0x80000000 #define KR_DMARX_DEVCS_RSV 0x00000001 #define KR_DMARX_DEVCS_LD 0x00000002 #define KR_DMARX_DEVCS_ROK 0x00000004 #define KR_DMARX_DEVCS_FM 0x00000008 #define KR_DMARX_DEVCS_MP 0x00000010 #define KR_DMARX_DEVCS_BP 0x00000020 #define KR_DMARX_DEVCS_VLT 0x00000040 #define KR_DMARX_DEVCS_CF 0x00000080 #define KR_DMARX_DEVCS_OVR 0x00000100 #define KR_DMARX_DEVCS_CRC 0x00000200 #define KR_DMARX_DEVCS_CV 0x00000400 #define KR_DMARX_DEVCS_DB 0x00000800 #define KR_DMARX_DEVCS_LE 0x00001000 #define KR_DMARX_DEVCS_LOR 0x00002000 #define KR_DMARX_DEVCS_CES 0x00004000 #define KR_DMATX_DEVCS_FD 0x00000001 #define KR_DMATX_DEVCS_LD 0x00000002 #define KR_DMATX_DEVCS_OEN 0x00000004 #define KR_DMATX_DEVCS_PEN 0x00000008 #define KR_DMATX_DEVCS_CEN 0x00000010 #define KR_DMATX_DEVCS_HEN 0x00000020 #define KR_DMATX_DEVCS_TOK 0x00000040 #define KR_DMATX_DEVCS_MP 0x00000080 #define KR_DMATX_DEVCS_BP 0x00000100 #define KR_DMATX_DEVCS_UND 0x00000200 #define KR_DMATX_DEVCS_OF 0x00000400 #define KR_DMATX_DEVCS_ED 0x00000800 #define KR_DMATX_DEVCS_EC 0x00001000 #define KR_DMATX_DEVCS_LC 0x00002000 #define KR_DMATX_DEVCS_TD 0x00004000 #define KR_DMATX_DEVCS_CRC 0x00008000 #define KR_DMATX_DEVCS_LE 0x00010000 #define KR_RX_RING_CNT 128 #define KR_TX_RING_CNT 128 #define KR_TX_RING_SIZE sizeof(struct kr_desc) * KR_TX_RING_CNT #define KR_RX_RING_SIZE sizeof(struct kr_desc) * KR_RX_RING_CNT #define KR_RING_ALIGN sizeof(struct kr_desc) #define KR_RX_ALIGN sizeof(uint32_t) #define KR_MAXFRAGS 8 #define KR_TX_INTR_THRESH 8 #define KR_TX_RING_ADDR(sc, i) \ ((sc)->kr_rdata.kr_tx_ring_paddr + sizeof(struct kr_desc) * (i)) #define KR_RX_RING_ADDR(sc, i) \ ((sc)->kr_rdata.kr_rx_ring_paddr + sizeof(struct kr_desc) * (i)) #define KR_INC(x,y) (x) = (((x) + 1) % y) struct kr_txdesc { struct mbuf *tx_m; bus_dmamap_t tx_dmamap; }; struct kr_rxdesc { struct mbuf *rx_m; bus_dmamap_t rx_dmamap; struct kr_desc *desc; /* Use this values on error instead of allocating new mbuf */ uint32_t saved_ctl, saved_ca; }; struct kr_chain_data { bus_dma_tag_t kr_parent_tag; bus_dma_tag_t kr_tx_tag; struct kr_txdesc kr_txdesc[KR_TX_RING_CNT]; bus_dma_tag_t kr_rx_tag; struct kr_rxdesc kr_rxdesc[KR_RX_RING_CNT]; bus_dma_tag_t kr_tx_ring_tag; bus_dma_tag_t kr_rx_ring_tag; bus_dmamap_t kr_tx_ring_map; bus_dmamap_t kr_rx_ring_map; bus_dmamap_t kr_rx_sparemap; int kr_tx_pkts; int kr_tx_prod; int kr_tx_cons; int kr_tx_cnt; int kr_rx_cons; }; struct kr_ring_data { struct kr_desc *kr_rx_ring; struct kr_desc *kr_tx_ring; bus_addr_t kr_rx_ring_paddr; bus_addr_t kr_tx_ring_paddr; }; struct kr_softc { struct ifnet *kr_ifp; /* interface info */ bus_space_handle_t kr_bhandle; /* bus space handle */ bus_space_tag_t kr_btag; /* bus space tag */ device_t kr_dev; struct resource *kr_res; int kr_rid; struct resource *kr_rx_irq; void *kr_rx_intrhand; struct resource *kr_tx_irq; void *kr_tx_intrhand; struct resource *kr_rx_und_irq; void *kr_rx_und_intrhand; struct resource *kr_tx_ovr_irq; void *kr_tx_ovr_intrhand; device_t kr_miibus; bus_dma_tag_t kr_parent_tag; bus_dma_tag_t kr_tag; struct mtx kr_mtx; struct callout kr_stat_callout; struct task kr_link_task; struct kr_chain_data kr_cdata; struct kr_ring_data kr_rdata; int kr_link_status; int kr_detach; }; #define KR_LOCK(_sc) mtx_lock(&(_sc)->kr_mtx) #define KR_UNLOCK(_sc) mtx_unlock(&(_sc)->kr_mtx) #define KR_LOCK_ASSERT(_sc) mtx_assert(&(_sc)->kr_mtx, MA_OWNED) /* * register space access macros */ #define CSR_WRITE_4(sc, reg, val) \ bus_space_write_4(sc->kr_btag, sc->kr_bhandle, reg, val) #define CSR_READ_4(sc, reg) \ bus_space_read_4(sc->kr_btag, sc->kr_bhandle, reg) #endif /* __IF_KRREG_H__ */