From c90fa83041f1467ac9795c489b7151db3a041ab5 Mon Sep 17 00:00:00 2001 From: Vijay Kumar Banerjee Date: Wed, 24 Feb 2021 19:09:56 -0700 Subject: bsps: Remove networking drivers Update #3850 --- bsps/powerpc/mvme5500/net/if_1GHz/if_wm.c | 1765 ----------------------------- 1 file changed, 1765 deletions(-) delete mode 100644 bsps/powerpc/mvme5500/net/if_1GHz/if_wm.c (limited to 'bsps/powerpc/mvme5500/net/if_1GHz/if_wm.c') diff --git a/bsps/powerpc/mvme5500/net/if_1GHz/if_wm.c b/bsps/powerpc/mvme5500/net/if_1GHz/if_wm.c deleted file mode 100644 index 74873475b8..0000000000 --- a/bsps/powerpc/mvme5500/net/if_1GHz/if_wm.c +++ /dev/null @@ -1,1765 +0,0 @@ -/* - * Copyright (c) 2004,2005 RTEMS/Mvme5500 port by S. Kate Feng - * under the Deaprtment of Energy contract DE-AC02-98CH10886 - * Brookhaven National Laboratory, All rights reserved - * - * Acknowledgements: - * netBSD : Copyright (c) 2001, 2002, 2003, 2004 Wasabi Systems, Inc. - * Jason R. Thorpe for Wasabi Systems, Inc. - * Intel : NDA document - * - * Some notes from the author, S. Kate Feng : - * - * 1) The error reporting routine i82544EI_error() employs two pointers - * for the error report buffer. One for the ISR and another one for - * the error report. - * 2) Enable the hardware Auto-Negotiation state machine. - * 3) Set Big Endian mode in the WMREG_CTRL so that we do not need htole32 - * because PPC is big endian mode. - * However, the data packet structure defined in if_wmreg.h - * should be redefined for the big endian mode. - * 4) To ensure the cache coherence, the MOTLoad had the PCI - * snoop control registers (0x1f00) set to "snoop to WB region" for - * the entire 512MB of memory. - * 5) MOTLoad default : - * little endian mode, cache line size is 32 bytes, no checksum control, - * hardware auto-neg. state machine disabled. PCI control "snoop - * to WB region", MII mode (PHY) instead of TBI mode. - * 6) We currently only use 32-bit (instead of 64-bit) DMA addressing. - * 7) Implementation for Jumbo Frame and TCP checksum is not completed yet. - * - */ - -#include - -#define BYTE_ORDER BIG_ENDIAN - -#include -#include /* printk */ -#include -#include -#include - -#include -#include /* printf for statistics */ -#include - -#include /* inp & friends */ -#include /* registers.h is included here */ -#include - -#include -#include -#include - -#include - -/* #include */ - -#include -#include /* SIOCADDMULTI, SIOC... */ -#include -#include -#include -#include -#include - -#ifdef INET -#include -#endif - -#include -#include -#include -#include - -extern int pci_mem_find(int b, int d, int f, int reg, unsigned *basep,unsigned *sizep); - -#define WMREG_RADV 0x282c /* Receive Interrupt Absolute Delay Timer */ - -#define ETHERTYPE_FLOWCONTROL 0x8808 /* 802.3x flow control packet */ - -#define i82544EI_TASK_NAME "IGHz" -#define SOFTC_ALIGN 4095 - -#define IF_ERR_BUFSZE 16 - -/*#define WM_DEBUG*/ -#ifdef WM_DEBUG -#define WM_DEBUG_LINK 0x01 -#define WM_DEBUG_TX 0x02 -#define WM_DEBUG_RX 0x04 -#define WM_DEBUG_GMII 0x08 -static int wm_debug = WM_DEBUG_TX|WM_DEBUG_RX|WM_DEBUG_LINK; /* May 7, 2009 */ - -#define DPRINTF(x, y) if (wm_debug & (x)) printk y -#else -#define DPRINTF(x, y) /* nothing */ -#endif /* WM_DEBUG */ - -/* RTEMS event to kill the daemon */ -#define KILL_EVENT RTEMS_EVENT_1 -/* RTEMS event to (re)start the transmitter */ -#define START_TRANSMIT_EVENT RTEMS_EVENT_2 -/* RTEMS events used by the ISR */ -#define RX_EVENT RTEMS_EVENT_3 -#define TX_EVENT RTEMS_EVENT_4 -#define ERR_EVENT RTEMS_EVENT_5 -#define INIT_EVENT RTEMS_EVENT_6 - -#define ALL_EVENTS (KILL_EVENT|START_TRANSMIT_EVENT|RX_EVENT|TX_EVENT|ERR_EVENT|INIT_EVENT) - -/* used 64 in 4.8.0, TOD; try 4096 */ -#define NTXDESC 256 -#define NTXDESC_MASK (NTXDESC - 1) -#define WM_NEXTTX(x) (((x) + 1) & NTXDESC_MASK) - -#define NRXDESC 256 -#define NRXDESC_MASK (NRXDESC - 1) -#define WM_NEXTRX(x) (((x) + 1) & NRXDESC_MASK) -#define WM_PREVRX(x) (((x) - 1) & NRXDESC_MASK) - -#define WM_CDOFF(x) offsetof(struct wm_control_data, x) -#define WM_CDTXOFF(x) WM_CDOFF(sc_txdescs[(x)]) -#define WM_CDRXOFF(x) WM_CDOFF(sc_rxdescs[(x)]) - -#define TXQ_HiLmt_OFF 32 - -static uint32_t TxDescCmd; -static unsigned BSP_1GHz_membase; - -/* - * Software state per device. - */ -struct wm_softc { - wiseman_txdesc_t sc_txdescs[NTXDESC]; /* transmit descriptor memory */ - wiseman_rxdesc_t sc_rxdescs[NRXDESC]; /* receive descriptor memory */ - struct mbuf *txs_mbuf[NTXDESC]; /* transmit buffer memory */ - struct mbuf *rxs_mbuf[NRXDESC]; /* receive buffer memory */ - struct wm_softc *next_module; - volatile unsigned int if_errsts[IF_ERR_BUFSZE]; /* intr_status */ - unsigned int if_err_ptr1; /* ptr used in i82544EI_error() */ - unsigned int if_err_ptr2; /* ptr used in ISR */ - int txs_firstdesc; /* first descriptor in packet */ - int txs_lastdesc; /* last descriptor in packet */ - int txs_ndesc; /* # of descriptors used */ - unsigned sc_membase; /* Memory space base address */ - unsigned sc_memsize; /* Memory space size */ - - char dv_xname[16]; /* external name (name + unit) */ - void *sc_sdhook; /* shutdown hook */ - struct arpcom arpcom; /* rtems if structure, contains ifnet */ - int sc_flags; /* flags; see below */ - int sc_bus_speed; /* PCI/PCIX bus speed */ - int sc_flowflags; /* 802.3x flow control flags */ - - void *sc_ih; /* interrupt cookie */ - - int sc_ee_addrbits; /* EEPROM address bits */ - rtems_id daemonTid; - rtems_id daemonSync; /* synchronization with the daemon */ - - int txq_next; /* next Tx descriptor ready for transmitting */ - uint32_t txq_nactive; /* number of active TX descriptors */ - uint32_t txq_fi; /* next free Tx descriptor */ - uint32_t txq_free; /* number of free Tx jobs */ - uint32_t sc_txctx_ipcs; /* cached Tx IP cksum ctx */ - uint32_t sc_txctx_tucs; /* cached Tx TCP/UDP cksum ctx */ - - int sc_rxptr; /* next ready Rx descriptor/queue ent */ - int sc_rxdiscard; - int sc_rxlen; - - uint32_t sc_ctrl; /* prototype CTRL register */ - uint32_t sc_ctrl_ext; /* prototype CTRL_EXT register */ - - uint32_t sc_icr; /* prototype interrupt bits */ - uint32_t sc_tctl; /* prototype TCTL register */ - uint32_t sc_rctl; /* prototype RCTL register */ - uint32_t sc_tipg; /* prototype TIPG register */ - uint32_t sc_fcrtl; /* prototype FCRTL register */ - uint32_t sc_pba; /* prototype PBA register */ - - int sc_mchash_type; /* multicast filter offset */ - - /* statistics */ - struct { - volatile unsigned long rxInterrupts; - volatile unsigned long txInterrupts; - unsigned long linkInterrupts; - unsigned long length_errors; - unsigned long frame_errors; - unsigned long crc_errors; - unsigned long rxOvrRunInterrupts; /* Rx overrun interrupt */ - unsigned long rxSeqErr; - unsigned long rxC_ordered; - unsigned long ghostInterrupts; - unsigned long linkStatusChng; - } stats; -}; - -/* our memory address seen from the PCI bus should be 1:1 */ -#define htole32(x) le32toh(x) -#define le32toh(x) CPU_swap_u32((unsigned int) x) -#define le16toh(x) CPU_swap_u16(x) - -/* sc_flags */ -#define WM_F_HAS_MII 0x01 /* has MII */ -/* 82544 EI does not perform EEPROM handshake, EEPROM interface is not SPI */ -#define WM_F_EEPROM_HANDSHAKE 0x02 /* requires EEPROM handshake */ -#define WM_F_EEPROM_SPI 0x04 /* EEPROM is SPI */ -#define WM_F_IOH_VALID 0x10 /* I/O handle is valid */ -#define WM_F_BUS64 0x20 /* bus is 64-bit */ -#define WM_F_PCIX 0x40 /* bus is PCI-X */ - -#define CSR_READ(sc,reg) in_le32((volatile uint32_t *)(sc->sc_membase+reg)) -#define CSR_WRITE(sc,reg,val) out_le32((volatile uint32_t *)(sc->sc_membase+reg), val) - -#define WM_CDTXADDR(sc) ( (uint32_t) &sc->sc_txdescs[0] ) -#define WM_CDRXADDR(sc) ( (uint32_t) &sc->sc_rxdescs[0] ) - -static struct wm_softc *root_i82544EI_dev = NULL; - -static void i82544EI_ifstart(struct ifnet *ifp); -static int wm_ioctl(struct ifnet *ifp, ioctl_command_t cmd,caddr_t data); -static void i82544EI_ifinit(void *arg); -static void wm_stop(struct ifnet *ifp, int disable); -static void wm_gmii_mediainit(struct wm_softc *sc); - -static void wm_rxdrain(struct wm_softc *sc); -static int wm_add_rxbuf(struct wm_softc *sc, int idx); -static int wm_read_eeprom(struct wm_softc *sc,int word,int wordcnt, uint16_t *data); -static void i82544EI_daemon(void *arg); -static void wm_set_filter(struct wm_softc *sc); -static void i82544EI_rx(struct wm_softc *sc); -static void i82544EI_isr(rtems_irq_hdl_param handle); -static void i82544EI_sendpacket(struct wm_softc *sc, struct mbuf *m); - -static void i82544EI_irq_on(const rtems_irq_connect_data *irq) -{ - struct wm_softc *sc; - unsigned int irqMask= ICR_TXDW | ICR_LSC | ICR_RXSEQ | ICR_RXDMT0 | ICR_RXO | ICR_RXT0 | ICR_RXCFG; - - for (sc= root_i82544EI_dev; sc; sc= sc-> next_module) { - CSR_WRITE(sc,WMREG_IMS,(CSR_READ(sc,WMREG_IMS)| irqMask) ); - return; - } -} - -static void i82544EI_irq_off(const rtems_irq_connect_data *irq) -{ - struct wm_softc *sc; - unsigned int irqMask= ICR_TXDW | ICR_LSC | ICR_RXSEQ | ICR_RXDMT0 | ICR_RXO | ICR_RXT0 |ICR_RXCFG ; - - for (sc= root_i82544EI_dev; sc; sc= sc-> next_module) { - CSR_WRITE(sc,WMREG_IMS, (CSR_READ(sc,WMREG_IMS) & ~irqMask) ); - return; - } -} - -static int i82544EI_irq_is_on(const rtems_irq_connect_data *irq) -{ - return(CSR_READ(root_i82544EI_dev,WMREG_ICR) & root_i82544EI_dev->sc_icr); -} - -static rtems_irq_connect_data i82544IrqData={ - BSP_GPP_82544_IRQ, - (rtems_irq_hdl) i82544EI_isr, - (rtems_irq_hdl_param) NULL, - (rtems_irq_enable) i82544EI_irq_on, - (rtems_irq_disable) i82544EI_irq_off, - (rtems_irq_is_enabled) i82544EI_irq_is_on, -}; - -int rtems_i82544EI_driver_attach(struct rtems_bsdnet_ifconfig *config, int attach) -{ - struct wm_softc *sc; - struct ifnet *ifp; - uint8_t enaddr[ETHER_ADDR_LEN]; - uint16_t myea[ETHER_ADDR_LEN / 2], cfg1, cfg2, swdpin; - unsigned reg; - int b,d,f; /* PCI bus/device/function */ - int unit; - void *softc_mem; - char *name; - - unit = rtems_bsdnet_parse_driver_name(config, &name); - if (unit < 0) return 0; - - if ( !strncmp((const char *)name,"autoz",5)) - memcpy(name,"gtGHz",5); - - printk("\nAttaching MVME5500 1GHz NIC%d\n", unit); - printk("RTEMS-mvme5500 BSP Copyright (c) 2004,2005,2008, Brookhaven National Lab., Shuchen Kate Feng \n"); - - /* Make sure certain elements e.g. descriptor lists are aligned.*/ - softc_mem = rtems_bsdnet_malloc(sizeof(*sc) + SOFTC_ALIGN, M_FREE, M_NOWAIT); - - /* Check for the very unlikely case of no memory. */ - if (softc_mem == NULL) - rtems_panic("i82544EI: OUT OF MEMORY"); - - sc = (void *)(((long)softc_mem + SOFTC_ALIGN) & ~SOFTC_ALIGN); - memset(sc, 0, sizeof(*sc)); - - sprintf(sc->dv_xname, "%s%d", name, unit); - - if (pci_find_device(PCI_VENDOR_ID_INTEL,PCI_DEVICE_ID_INTEL_82544EI_COPPER, - unit-1,&b, &d, &f)) - rtems_panic("i82544EI device ID not found\n"); - -#ifdef WM_DEBUG - printk("82544EI:b%d, d%d, f%d\n", b, d,f); -#endif - - /* Memory-mapped acccess is required for normal operation.*/ - if ( pci_mem_find(b,d,f,PCI_MAPREG_START, &sc->sc_membase, &sc->sc_memsize)) - rtems_panic("i82544EI: unable to map memory space\n"); - -#ifdef WM_DEBUG - printk("Memory base addr 0x%x\n", sc->sc_membase); -#endif - BSP_1GHz_membase= sc->sc_membase; - -#ifdef WM_DEBUG - printk("Memory base addr 0x%x\n", sc->sc_membase); - printk("txdesc[0] addr:0x%x, rxdesc[0] addr:0x%x, sizeof sc %d\n",&sc->sc_txdescs[0], &sc->sc_rxdescs[0], sizeof(*sc)); -#endif - - - sc->sc_ctrl=CSR_READ(sc,WMREG_CTRL); - /* - * Determine a few things about the bus we're connected to. - */ - reg = CSR_READ(sc,WMREG_STATUS); - if (reg & STATUS_BUS64) sc->sc_flags |= WM_F_BUS64; - sc->sc_bus_speed = (reg & STATUS_PCI66) ? 66 : 33; -#ifdef WM_DEBUG - printk("%s%d: %d-bit %dMHz PCI bus\n",name, unit, - (sc->sc_flags & WM_F_BUS64) ? 64 : 32, sc->sc_bus_speed); -#endif - - /* - * Setup some information about the EEPROM. - */ - - sc->sc_ee_addrbits = 6; - -#ifdef WM_DEBUG - printk("%s%d: %u word (%d address bits) MicroWire EEPROM\n", - name, unit, 1U << sc->sc_ee_addrbits, - sc->sc_ee_addrbits); -#endif - - /* - * Read the Ethernet address from the EEPROM. - */ - if (wm_read_eeprom(sc, EEPROM_OFF_MACADDR, - sizeof(myea) / sizeof(myea[0]), myea)) - rtems_panic("i82544ei 1GHZ ethernet: unable to read Ethernet address"); - - enaddr[0] = myea[0] & 0xff; - enaddr[1] = myea[0] >> 8; - enaddr[2] = myea[1] & 0xff; - enaddr[3] = myea[1] >> 8; - enaddr[4] = myea[2] & 0xff; - enaddr[5] = myea[2] >> 8; - - memcpy(sc->arpcom.ac_enaddr, enaddr, ETHER_ADDR_LEN); -#ifdef WM_DEBUG - printk("%s: Ethernet address %s\n", sc->dv_xname, - ether_sprintf(enaddr)); -#endif - - /* - * Read the config info from the EEPROM, and set up various - * bits in the control registers based on their contents. - */ - if (wm_read_eeprom(sc, EEPROM_OFF_CFG1, 1, &cfg1)) { - printk("%s: unable to read CFG1 from EEPROM\n",sc->dv_xname); - return(0); - } - if (wm_read_eeprom(sc, EEPROM_OFF_CFG2, 1, &cfg2)) { - printk("%s: unable to read CFG2 from EEPROM\n",sc->dv_xname); - return(0); - } - if (wm_read_eeprom(sc, EEPROM_OFF_SWDPIN, 1, &swdpin)) { - printk("%s: unable to read SWDPIN from EEPROM\n",sc->dv_xname); - return(0); - } - - if (cfg1 & EEPROM_CFG1_ILOS) sc->sc_ctrl |= CTRL_ILOS; - sc->sc_ctrl|=((swdpin >> EEPROM_SWDPIN_SWDPIO_SHIFT) & 0xf) << - CTRL_SWDPIO_SHIFT; - sc->sc_ctrl |= ((swdpin >> EEPROM_SWDPIN_SWDPIN_SHIFT) & 0xf) << - CTRL_SWDPINS_SHIFT; - - CSR_WRITE(sc,WMREG_CTRL, sc->sc_ctrl); -#if 0 - CSR_WRITE(sc,WMREG_CTRL_EXT, sc->sc_ctrl_ext); -#endif - - /* - * Determine if we're TBI or GMII mode, and initialize the - * media structures accordingly. - */ - if ((CSR_READ(sc, WMREG_STATUS) & STATUS_TBIMODE) != 0) { - /* 1000BASE-X : fiber (TBI mode) - wm_tbi_mediainit(sc); */ - } else { /* 1000BASE-T : copper (internal PHY mode), for the mvme5500 */ - wm_gmii_mediainit(sc); - } - - ifp = &sc->arpcom.ac_if; - /* set this interface's name and unit */ - ifp->if_unit = unit; - ifp->if_name = name; - ifp->if_softc = sc; - ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST; -#ifdef RTEMS_ETHERMTU_JUMBO - sc->arpcom.ec_capabilities |= ETHERCAP_JUMBO_MTU; - ifp->if_mtu = config->mtu ? config->mtu : ETHERMTU_JUMBO; -#else - ifp->if_mtu = config->mtu ? config->mtu : ETHERMTU; -#endif -#ifdef RTEMS_CKSUM_OFFLOAD - /* < skf> The following is really not related to jumbo frame - sc->arpcom.ec_capabilities |= ETHERCAP_VLAN_MTU;*/ - ifp->if_capabilities |= IFCAP_CSUM_IPv4_Tx | IFCAP_CSUM_IPv4_Rx | - IFCAP_CSUM_TCPv4_Tx | IFCAP_CSUM_TCPv4_Rx | - IFCAP_CSUM_UDPv4_Tx | IFCAP_CSUM_UDPv4_Rx | - IFCAP_CSUM_TCPv6_Tx | IFCAP_CSUM_UDPv6_Tx | - IFCAP_TSOv4; /* TCP segmentation offload. */ -#endif - - ifp->if_ioctl = wm_ioctl; - ifp->if_start = i82544EI_ifstart; - /* ifp->if_watchdog = wm_watchdog;*/ - ifp->if_init = i82544EI_ifinit; - if (ifp->if_snd.ifq_maxlen == 0) - ifp->if_snd.ifq_maxlen = ifqmaxlen; - - ifp->if_output = ether_output; - - /* create the synchronization semaphore */ - if (RTEMS_SUCCESSFUL != rtems_semaphore_create( - rtems_build_name('I','G','H','Z'),0,0,0,&sc->daemonSync)) - rtems_panic("i82544EI: semaphore creation failed"); - - i82544IrqData.handle= (rtems_irq_hdl_param) sc; - /* sc->next_module = root_i82544EI_dev;*/ - root_i82544EI_dev = sc; - - /* Attach the interface. */ - if_attach(ifp); - ether_ifattach(ifp); -#ifdef WM_DEBUG - printk("82544EI: Ethernet driver has been attached (handle 0x%08x,ifp 0x%08x)\n",sc, ifp); -#endif - - return(1); -} - -/* - * wm_reset: - * - * Reset the i82544 chip. - */ -static void wm_reset(struct wm_softc *sc) -{ - int i; - - /* Packet Buffer Allocation (PBA) - * Writing PBA sets the receive portion of the buffer. - * the remainder is used for the transmit buffer. - * - * 82544 has a Packet Buffer of 64K. - * Default allocation : PBA=40K for Rx, leaving 24K for Tx. - * Default for jumbo: PBA=48K for Rx, leaving 16K for Tx. - */ - sc->sc_pba = sc->arpcom.ac_if.if_mtu > 8192 ? PBA_40K : PBA_48K; - CSR_WRITE(sc, WMREG_PBA, sc->sc_pba); - - /* device reset */ - CSR_WRITE(sc, WMREG_CTRL, CTRL_RST); - rtems_bsp_delay(10000); - - for (i = 0; i < 1000; i++) { - if ((CSR_READ(sc, WMREG_CTRL) & CTRL_RST) == 0) - break; - rtems_bsp_delay(20); - } - if (CSR_READ(sc, WMREG_CTRL) & CTRL_RST) - printk("Intel 82544 1GHz reset failed to complete\n"); - - sc->sc_ctrl_ext = CSR_READ(sc,WMREG_CTRL_EXT); - sc->sc_ctrl_ext |= CTRL_EXT_EE_RST; - CSR_WRITE(sc, WMREG_CTRL_EXT, sc->sc_ctrl_ext); - CSR_READ(sc, WMREG_STATUS); - /* Wait for EEPROM reload */ - rtems_bsp_delay(2000); - sc->sc_ctrl= CSR_READ(sc, WMREG_CTRL); -} - -/* - * i82544EI_ifstart: [ifnet interface function] - * - * Start packet transmission on the interface. - */ -static void -i82544EI_ifstart(struct ifnet *ifp) -{ - struct wm_softc *sc = ifp->if_softc; - -#ifdef WM_DEBUG - printk("i82544EI_ifstart("); -#endif - - if ((ifp->if_flags & IFF_RUNNING) == 0) { -#ifdef WM_DEBUG - printk("IFF_RUNNING==0\n"); -#endif - return; - } - - ifp->if_flags |= IFF_OACTIVE; - rtems_bsdnet_event_send (sc->daemonTid, START_TRANSMIT_EVENT); -#ifdef WM_DEBUG - printk(")\n"); -#endif -} - -static void i82544EI_stats(struct wm_softc *sc) -{ - struct ifnet *ifp = &sc->arpcom.ac_if; - - printf(" Ghost Interrupts:%-8lu\n", sc->stats.ghostInterrupts); - printf(" Rx Interrupts:%-8lu\n", sc->stats.rxInterrupts); - printf(" Receive Packets:%-8u\n", (unsigned)CSR_READ(sc,WMREG_GPRC)); - printf(" Receive Overrun:%-8lu\n", sc->stats.rxOvrRunInterrupts); - printf(" Receive errors:%-8u\n", (unsigned)CSR_READ(sc,WMREG_RXERRC)); - printf(" Rx sequence error:%-8lu\n", sc->stats.rxSeqErr); - printf(" Rx /C/ ordered:%-8lu\n", sc->stats.rxC_ordered); - printf(" Rx Length Errors:%-8u\n", (unsigned)CSR_READ(sc,WMREG_RLEC)); - printf(" Tx Interrupts:%-8lu\n", sc->stats.txInterrupts); - printf(" Transmitt Packets:%-8u\n", (unsigned)CSR_READ(sc,WMREG_GPTC)); - printf(" Transmitt errors:%-8lu\n", ifp->if_oerrors); - printf(" Active Txqs:%-8lu\n", sc->txq_nactive); - printf(" collisions:%-8u\n", (unsigned)CSR_READ(sc,WMREG_COLC)); - printf(" Crc Errors:%-8u\n", (unsigned)CSR_READ(sc,WMREG_CRCERRS)); - printf(" Link Status Change:%-8lu\n", sc->stats.linkStatusChng); -} - -/* - * wm_ioctl: [ifnet interface function] - * - * Handle control requests from the operator. - */ -static int wm_ioctl(struct ifnet *ifp, ioctl_command_t cmd,caddr_t data) -{ - struct wm_softc *sc = ifp->if_softc; - int error=0; - - switch (cmd) { - default: - error = ether_ioctl(ifp, cmd, data); - if (error == ENETRESET) { - /* - * Multicast list has changed; set the hardware filter - * accordingly. - */ - wm_set_filter(sc); - error = 0; - } - break; - case SIO_RTEMS_SHOW_STATS: - i82544EI_stats(sc); - break; - } - - /* Try to get more packets going.*/ - i82544EI_ifstart(ifp); - return (error); -} - -/* - * wm_isr: - * - * Interrupt service routine. - */ -static void i82544EI_isr(rtems_irq_hdl_param handle) -{ - volatile struct wm_softc *sc = (struct wm_softc *) handle; - uint32_t icr; - rtems_event_set events=0; - - /* Reading the WMREG_ICR clears the interrupt bits */ - icr = CSR_READ(sc,WMREG_ICR); - - if ( icr & (ICR_RXDMT0|ICR_RXT0)) { - sc->stats.rxInterrupts++; - events |= RX_EVENT; - } - - if (icr & ICR_TXDW) { - sc->stats.txInterrupts++; - events |= TX_EVENT; - } - /* Rx overrun : no available receive buffer - * or PCI receive bandwidth inadequate. - */ - if (icr & ICR_RXO) { - sc->stats.rxOvrRunInterrupts++; - events |= INIT_EVENT; - } - if (icr & ICR_RXSEQ) /* framing error */ { - sc->if_errsts[sc->if_err_ptr2++]=icr; - if ( sc->if_err_ptr2 ==IF_ERR_BUFSZE) sc->if_err_ptr2=0; - events |= ERR_EVENT; - sc->stats.rxSeqErr++; - } - if ( !icr) sc->stats.ghostInterrupts++; - - if (icr & ICR_LSC) sc->stats.linkStatusChng++; - if (icr & ICR_RXCFG) sc->stats.rxC_ordered++; - - rtems_bsdnet_event_send(sc->daemonTid, events); -} - -/* - * i82544EI_sendpacket: - * - * Helper; handle transmit interrupts. - */ -static void i82544EI_sendpacket(struct wm_softc *sc, struct mbuf *m) -{ - -#ifdef WM_DEBUG_TX - printk("sendpacket("); -#endif - - if ( !(m->m_next)) { /* single buffer packet */ - sc->txs_mbuf[sc->txq_next]= m; - /* Note: we currently only use 32-bit DMA addresses. */ - sc->sc_txdescs[sc->txq_next].wtx_addr.wa_low = htole32(mtod(m, void*)); - sc->sc_txdescs[sc->txq_next].wtx_cmdlen =htole32(TxDescCmd | m->m_len); - sc->txs_lastdesc= sc->txq_next; - sc->txq_next = WM_NEXTTX(sc->txq_next); - sc->txq_nactive++; - sc->txq_free--; - } - else /* multiple mbufs in this packet */ - { - struct mbuf *mtp, *mdest; - volatile unsigned char *pt; - int len, y, loop=0; - -#ifdef WM_DEBUG_TX - printk("multi mbufs "); -#endif - mtp = m; - while ( mtp) { - MGETHDR(mdest, M_WAIT, MT_DATA); - MCLGET(mdest, M_WAIT); - pt = (volatile unsigned char *)mdest->m_data; - for ( len=0;mtp;mtp=mtp->m_next) { - loop++; - /* Each descriptor gets a 2k (MCLBYTES) buffer, although - * the length of each descriptor can be up to 16288 bytes. - * For packets which fill more than one buffer ( >2k), we - * chain them together. - * : This effective for packets > 2K - * The other way is effective for packets < 2K - */ - if ( ((y=(len+mtp->m_len)) > sizeof(union mcluster))) { - printk(" >%d, use next descriptor\n", sizeof(union mcluster)); - break; - } - memcpy((void *)pt,(char *)mtp->m_data, mtp->m_len); - pt += mtp->m_len; - len += mtp->m_len; - } /* end for loop */ - mdest->m_len=len; - sc->txs_mbuf[sc->txq_next] = mdest; - /* Note: we currently only use 32-bit DMA addresses. */ - sc->sc_txdescs[sc->txq_next].wtx_addr.wa_low = htole32(mtod(mdest, void*)); - sc->sc_txdescs[sc->txq_next].wtx_cmdlen = htole32(TxDescCmd|mdest->m_len); - sc->txs_lastdesc = sc->txq_next; - sc->txq_next = WM_NEXTTX(sc->txq_next); - sc->txq_nactive ++; - if (sc->txq_free) - sc->txq_free--; - else - rtems_panic("i8254EI : no more free descriptors"); - } /* end for while */ - /* free old mbuf chain */ - m_freem(m); - m=0; - } /* end multiple mbufs */ - - DPRINTF(WM_DEBUG_TX,("%s: TX: desc %d: cmdlen 0x%08x\n", sc->dv_xname, - sc->txs_lastdesc, le32toh(sc->sc_txdescs[sc->txs_lastdesc].wtx_cmdlen))); - DPRINTF(WM_DEBUG_TX,("status 0x%08x\n",sc->sc_txdescs[sc->txq_fi].wtx_fields.wtxu_status)); - - memBar(); - - /* This is the location where software writes the first NEW descriptor */ - CSR_WRITE(sc,WMREG_TDT, sc->txq_next); - - DPRINTF(WM_DEBUG_TX,("%s: addr 0x%08x, TX: TDH %d, TDT %d\n",sc->dv_xname, - le32toh(sc->sc_txdescs[sc->txs_lastdesc].wtx_addr.wa_low), CSR_READ(sc,WMREG_TDH), - CSR_READ(sc,WMREG_TDT))); - - DPRINTF(WM_DEBUG_TX,("%s: TX: finished transmitting packet, job %d\n", - sc->dv_xname, sc->txq_next)); - -} - -static void i82544EI_txq_free(struct wm_softc *sc, uint8_t status) -{ - struct ifnet *ifp = &sc->arpcom.ac_if; - - /* We might use the statistics registers instead of variables - * to keep tack of the network statistics - */ - - /* statistics */ - ifp->if_opackets++; - - if (status & (WTX_ST_EC|WTX_ST_LC)) { - ifp->if_oerrors++; - - if (status & WTX_ST_LC) - printf("%s: late collision\n", sc->dv_xname); - else if (status & WTX_ST_EC) { - ifp->if_collisions += 16; - printf("%s: excessive collisions\n", sc->dv_xname); - } - } - /* Free the original mbuf chain */ - m_freem(sc->txs_mbuf[sc->txq_fi]); - sc->txs_mbuf[sc->txq_fi] = 0; - sc->sc_txdescs[sc->txq_fi].wtx_fields.wtxu_status=0; - - sc->txq_free ++; - sc->txq_fi = WM_NEXTTX(sc->txq_fi); - --sc->txq_nactive; -} - -static void i82544EI_txq_done(struct wm_softc *sc) -{ - uint8_t status; - - /* - * Go through the Tx list and free mbufs for those - * frames which have been transmitted. - */ - while ( sc->txq_nactive > 0) { - status = sc->sc_txdescs[sc->txq_fi].wtx_fields.wtxu_status; - if ((status & WTX_ST_DD) == 0) break; - i82544EI_txq_free(sc, status); - DPRINTF(WM_DEBUG_TX,("%s: TX: job %d done\n", - sc->dv_xname, sc->txq_fi)); - } -} - -static void wm_init_rxdesc(struct wm_softc *sc, int x) -{ - wiseman_rxdesc_t *__rxd = &(sc)->sc_rxdescs[(x)]; - struct mbuf *m; - - m = sc->rxs_mbuf[x]; - - __rxd->wrx_addr.wa_low=htole32(mtod(m, void*)); - __rxd->wrx_addr.wa_high = 0; - __rxd->wrx_len = 0; - __rxd->wrx_cksum = 0; - __rxd->wrx_status = 0; - __rxd->wrx_errors = 0; - __rxd->wrx_special = 0; - /* Receive Descriptor Tail: add Rx desc. to H/W free list */ - CSR_WRITE(sc,WMREG_RDT, (x)); -} - -static void i82544EI_rx(struct wm_softc *sc) -{ - struct ifnet *ifp = &sc->arpcom.ac_if; - struct mbuf *m; - int i, len; - uint8_t status, errors; - struct ether_header *eh; - -#ifdef WM_DEBUG - printk("i82544EI_rx()\n"); -#endif - - for (i = sc->sc_rxptr;; i = WM_NEXTRX(i)) { - DPRINTF(WM_DEBUG_RX, ("%s: RX: checking descriptor %d\n", - sc->dv_xname, i)); - - status = sc->sc_rxdescs[i].wrx_status; - if ((status & WRX_ST_DD) == 0) break; /* descriptor not done */ - - errors = sc->sc_rxdescs[i].wrx_errors; - len = le16toh(sc->sc_rxdescs[i].wrx_len); - m = sc->rxs_mbuf[i]; - if (sc->sc_rxdiscard) { - printk("RX: discarding contents of descriptor %d\n", i); - wm_init_rxdesc(sc, i); - if (status & WRX_ST_EOP) { - /* Reset our state. */ - printk("RX: resetting rxdiscard -> 0\n"); - sc->sc_rxdiscard = 0; - } - continue; - } - - /* - * If an error occurred, update stats and drop the packet. - */ - if (errors &(WRX_ER_CE|WRX_ER_SE|WRX_ER_SEQ|WRX_ER_CXE|WRX_ER_RXE)) { - ifp->if_ierrors++; - if (errors & WRX_ER_SE) - printk("%s: symbol error\n",sc->dv_xname); - else if (errors & WRX_ER_SEQ) - printk("%s: receive sequence error\n",sc->dv_xname); - else if (errors & WRX_ER_CE) - printk("%s: CRC error\n",sc->dv_xname); - m_freem(m); - goto give_it_back; - } - - /* - * No errors. Receive the packet. - * - * Note, we have configured the chip to include the - * CRC with every packet. - */ - m->m_len = m->m_pkthdr.len = len - sizeof(struct ether_header); - - DPRINTF(WM_DEBUG_RX,("%s: RX: buffer at %p len %d\n", - sc->dv_xname, m->m_data, len)); - - - eh = mtod (m, struct ether_header *); - m->m_data += sizeof(struct ether_header); - ether_input (ifp, eh, m); - /* Pass it on. */ - ifp->if_ipackets++; - - give_it_back: - /* Add a new receive buffer to the ring.*/ - if (wm_add_rxbuf(sc, i) != 0) { - /* - * Failed, throw away what we've done so - * far, and discard the rest of the packet. - */ - printk("Failed in wm_add_rxbuf(), drop packet\n"); - ifp->if_ierrors++; - wm_init_rxdesc(sc, i); - if ((status & WRX_ST_EOP) == 0) - sc->sc_rxdiscard = 1; - m_freem(m); - } - } /* end for */ - - /* Update the receive pointer. */ - sc->sc_rxptr = i; - DPRINTF(WM_DEBUG_RX, ("%s: RX: rxptr -> %d\n", sc->dv_xname, i)); -} - -static int i82544EI_init_hw(struct wm_softc *sc) -{ - struct ifnet *ifp = &sc->arpcom.ac_if; - int i,error; - uint8_t cksumfields; - -#if 0 - /* KATETODO : sc_align_tweak */ - /* - * *_HDR_ALIGNED_P is constant 1 if __NO_STRICT_ALIGMENT is set. - * There is a small but measurable benefit to avoiding the adjusment - * of the descriptor so that the headers are aligned, for normal mtu, - * on such platforms. One possibility is that the DMA itself is - * slightly more efficient if the front of the entire packet (instead - * of the front of the headers) is aligned. - * - * Note we must always set align_tweak to 0 if we are using - * jumbo frames. - */ -#ifdef __NO_STRICT_ALIGNMENT - sc->sc_align_tweak = 0; -#else - if ((ifp->if_mtu + ETHER_HDR_LEN + ETHER_CRC_LEN) > (MCLBYTES - 2)) - sc->sc_align_tweak = 0; - else - sc->sc_align_tweak = 2; -#endif /* __NO_STRICT_ALIGNMENT */ -#endif - - /* Cancel any pending I/O. */ - wm_stop(ifp, 0); - - /* update statistics before reset */ - ifp->if_collisions += CSR_READ(sc, WMREG_COLC); - ifp->if_ierrors += CSR_READ(sc, WMREG_RXERRC); - - /* Reset the chip to a known state. */ - wm_reset(sc); - - /* Initialize the error buffer ring */ - sc->if_err_ptr1=0; - sc->if_err_ptr2=0; - for (i=0; i< IF_ERR_BUFSZE; i++) sc->if_errsts[i]=0; - - /* Initialize the transmit descriptor ring. */ - memset( (void *) sc->sc_txdescs, 0, sizeof(sc->sc_txdescs)); - sc->txq_free = NTXDESC; - sc->txq_next = 0; - sc->txs_lastdesc = 0; - sc->txq_next = 0; - sc->txq_free = NTXDESC; - sc->txq_nactive = 0; - - sc->sc_txctx_ipcs = 0xffffffff; - sc->sc_txctx_tucs = 0xffffffff; - - CSR_WRITE(sc,WMREG_TBDAH, 0); - CSR_WRITE(sc,WMREG_TBDAL, WM_CDTXADDR(sc)); -#ifdef WM_DEBUG - printk("TBDAL 0x%x, TDLEN %d\n", WM_CDTXADDR(sc), sizeof(sc->sc_txdescs)); -#endif - CSR_WRITE(sc,WMREG_TDLEN, sizeof(sc->sc_txdescs)); - CSR_WRITE(sc,WMREG_TDH, 0); - CSR_WRITE(sc,WMREG_TDT, 0); - CSR_WRITE(sc,WMREG_TIDV, 0 ); - /* CSR_WRITE(sc,WMREG_TADV, 128); not for 82544 */ - - CSR_WRITE(sc,WMREG_TXDCTL, TXDCTL_PTHRESH(0) | - TXDCTL_HTHRESH(0) | TXDCTL_WTHRESH(0)); - CSR_WRITE(sc,WMREG_RXDCTL, RXDCTL_PTHRESH(0) | - RXDCTL_HTHRESH(0) | RXDCTL_WTHRESH(1) | RXDCTL_GRAN ); - - CSR_WRITE(sc,WMREG_TQSA_LO, 0); - CSR_WRITE(sc,WMREG_TQSA_HI, 0); - - /* - * Set up checksum offload parameters for - * this packet. - */ -#ifdef RTEMS_CKSUM_OFFLOAD - if (m0->m_pkthdr.csum_flags & (M_CSUM_TSOv4|M_CSUM_TSOv6| - M_CSUM_IPv4|M_CSUM_TCPv4|M_CSUM_UDPv4| - M_CSUM_TCPv6|M_CSUM_UDPv6)) { - if (wm_tx_offload(sc, txs, &TxDescCmd,&cksumfields) != 0) { - /* Error message already displayed. */ - continue; - } - } else { -#endif - TxDescCmd = 0; - cksumfields = 0; -#ifdef RTEMS_CKSUM_OFFLOAD - } -#endif - - TxDescCmd |= WTX_CMD_EOP|WTX_CMD_IFCS|WTX_CMD_RS; - - /* Initialize the transmit job descriptors. */ - for (i = 0; i < NTXDESC; i++) { - sc->txs_mbuf[i] = 0; - sc->sc_txdescs[i].wtx_fields.wtxu_options=cksumfields; - sc->sc_txdescs[i].wtx_addr.wa_high = 0; - sc->sc_txdescs[i].wtx_addr.wa_low = 0; - sc->sc_txdescs[i].wtx_cmdlen = htole32(TxDescCmd); - } - - /* - * Initialize the receive descriptor and receive job - * descriptor rings. - */ - memset( (void *) sc->sc_rxdescs, 0, sizeof(sc->sc_rxdescs)); - CSR_WRITE(sc,WMREG_RDBAH, 0); - CSR_WRITE(sc,WMREG_RDBAL, WM_CDRXADDR(sc)); - CSR_WRITE(sc,WMREG_RDLEN, sizeof(sc->sc_rxdescs)); - CSR_WRITE(sc,WMREG_RDH, 0); - CSR_WRITE(sc,WMREG_RDT, 0); - CSR_WRITE(sc,WMREG_RDTR, 0 |RDTR_FPD); - /* CSR_WRITE(sc, WMREG_RADV, 256); not for 82544. */ - - for (i = 0; i < NRXDESC; i++) { - if (sc->rxs_mbuf[i] == NULL) { - if ((error = wm_add_rxbuf(sc, i)) != 0) { - printk("%s%d: unable to allocate or map rx buffer" - "%d, error = %d\n",ifp->if_name,ifp->if_unit, i, error); - /* - * XXX Should attempt to run with fewer receive - * XXX buffers instead of just failing. - */ - wm_rxdrain(sc); - return(error); - } - } else { - printk("sc->rxs_mbuf[%d] not NULL.\n", i); - wm_init_rxdesc(sc, i); - } - } - sc->sc_rxptr = 0; - sc->sc_rxdiscard = 0; - - /* - * Clear out the VLAN table -- we don't use it (yet). - */ - CSR_WRITE(sc,WMREG_VET, 0); - for (i = 0; i < WM_VLAN_TABSIZE; i++) - CSR_WRITE(sc,WMREG_VFTA + (i << 2), 0); - -#if 0 - /* Use MOTLoad default - * - * Set up flow-control parameters. - */ - CSR_WRITE(sc,WMREG_FCAL, FCAL_CONST);/* same as MOTLOAD 0x00c28001 */ - CSR_WRITE(sc,WMREG_FCAH, FCAH_CONST);/* same as MOTLOAD 0x00000100 */ - CSR_WRITE(sc,WMREG_FCT, ETHERTYPE_FLOWCONTROL);/* same as MOTLoad 0x8808 */ - - - /* safe,even though MOTLoad default all 0 */ - sc->sc_fcrtl = FCRTL_DFLT; - - CSR_WRITE(sc,WMREG_FCRTH, FCRTH_DFLT); - CSR_WRITE(sc,WMREG_FCRTL, sc->sc_fcrtl); - /*KATETO CSR_WRITE(sc,WMREG_FCTTV, FCTTV_DFLT);*/ - CSR_WRITE(sc,WMREG_FCTTV, 0x100); -#endif - - sc->sc_ctrl &= ~CTRL_VME; - /* TODO : not here. - Configures flow control settings after link is established - sc->sc_ctrl |= CTRL_TFCE | CTRL_RFCE; */ - - /* Write the control registers. */ - CSR_WRITE(sc,WMREG_CTRL, sc->sc_ctrl); -#if 0 - CSR_WRITE(sc,WMREG_CTRL_EXT, sc->sc_ctrl_ext); -#endif - - /* MOTLoad : WMREG_RXCSUM (0x5000)= 0, no Rx checksum offloading */ -#ifdef RTEMS_CKSUM_OFFLOAD - /* - * Set up checksum offload parameters. - */ - reg = CSR_READ(sc, WMREG_RXCSUM); - reg &= ~(RXCSUM_IPOFL | RXCSUM_IPV6OFL | RXCSUM_TUOFL); - if (ifp->if_capenable & IFCAP_CSUM_IPv4_Rx) - reg |= RXCSUM_IPOFL; - if (ifp->if_capenable & (IFCAP_CSUM_TCPv4_Rx | IFCAP_CSUM_UDPv4_Rx)) - reg |= RXCSUM_IPOFL | RXCSUM_TUOFL; - if (ifp->if_capenable & (IFCAP_CSUM_TCPv6_Rx | IFCAP_CSUM_UDPv6_Rx)) - reg |= RXCSUM_IPV6OFL | RXCSUM_TUOFL; - CSR_WRITE(sc, WMREG_RXCSUM, reg); -#endif - - /* - * Set up the interrupt registers. - */ - CSR_WRITE(sc,WMREG_IMC, 0xffffffffU); - - /* Reading the WMREG_ICR clears the interrupt bits */ - CSR_READ(sc,WMREG_ICR); - - /* printf("WMREG_IMS 0x%x\n", CSR_READ(sc,WMREG_IMS));*/ - - sc->sc_icr = ICR_TXDW | ICR_LSC | ICR_RXSEQ | ICR_RXCFG | ICR_RXDMT0 | ICR_RXO | ICR_RXT0; - - CSR_WRITE(sc,WMREG_IMS, sc->sc_icr); - - /* Set up the inter-packet gap. */ - CSR_WRITE(sc,WMREG_TIPG, sc->sc_tipg); - -#if 0 /* XXXJRT */ - /* Set the VLAN ethernetype. */ - CSR_WRITE(sc,WMREG_VET, ETHERTYPE_VLAN); -#endif - - /* - * Set up the transmit control register; we start out with - * a collision distance suitable for FDX, but update it when - * we resolve the media type. - */ - sc->sc_tctl = TCTL_EN | TCTL_PSP | TCTL_CT(TX_COLLISION_THRESHOLD) | - TCTL_COLD(TX_COLLISION_DISTANCE_FDX) | - TCTL_RTLC /* retransmit on late collision */; - - /* - * Set up the receive control register; we actually program - * the register when we set the receive filter. Use multicast - * address offset type 0. - * - * Only the i82544 has the ability to strip the incoming - * CRC (RCTL_SECRC). - */ - sc->sc_mchash_type = 0; - sc->sc_rctl = RCTL_EN | RCTL_LBM_NONE | RCTL_RDMTS_1_2 | RCTL_LPE | - RCTL_DPF | RCTL_MO(sc->sc_mchash_type)|RCTL_SECRC; - - if (MCLBYTES == 2048) { - sc->sc_rctl |= RCTL_2k; - } else { - switch(MCLBYTES) { - case 4096: - sc->sc_rctl |= RCTL_BSEX | RCTL_BSEX_4k; - break; - case 8192: - sc->sc_rctl |= RCTL_BSEX | RCTL_BSEX_8k; - break; - case 16384: - sc->sc_rctl |= RCTL_BSEX | RCTL_BSEX_16k; - break; - default: - rtems_panic("wm_init: MCLBYTES %d unsupported", - MCLBYTES); - break; - } - } - -#ifdef WM_DEBUG - printk("RDBAL 0x%x,RDLEN %d, RDT %d\n",CSR_READ(sc,WMREG_RDBAL),CSR_READ(sc,WMREG_RDLEN), CSR_READ(sc,WMREG_RDT)); -#endif - - /* Set the receive filter. */ - wm_set_filter(sc); - - CSR_WRITE(sc,WMREG_TCTL, sc->sc_tctl); - - /* Map and establish our interrupt. */ - if (!BSP_install_rtems_irq_handler(&i82544IrqData)) - rtems_panic("1GHZ ethernet: unable to install ISR"); - - return(0); -} - -void BSP_rdTIDV(void) -{ - printf("Reg TIDV: 0x%" PRIx32 "\n", in_le32((volatile uint32_t *) (BSP_1GHz_membase+WMREG_TIDV))); -} -void BSP_rdRDTR(void) -{ - printf("Reg RDTR: 0x%" PRIx32 "\n", in_le32((volatile uint32_t *) (BSP_1GHz_membase+WMREG_RDTR))); -} - -void BSP_setTIDV(int val) -{ - out_le32((volatile uint32_t *) (BSP_1GHz_membase+WMREG_TIDV), val); -} - -void BSP_setRDTR(int val) -{ - out_le32((volatile uint32_t *) (BSP_1GHz_membase+WMREG_RDTR), val); -} -/* - * i82544EI_ifinit: [ifnet interface function] - * - * Initialize the interface. - */ -static void i82544EI_ifinit(void *arg) -{ - struct wm_softc *sc = (struct wm_softc*)arg; - -#ifdef WM_DEBUG - printk("i82544EI_ifinit(): daemon ID: 0x%08x)\n", sc->daemonTid); -#endif - if (sc->daemonTid) { -#ifdef WM_DEBUG - printk("i82544EI: daemon already up, doing nothing\n"); -#endif - return; - } - i82544EI_init_hw(sc); - - sc->daemonTid = rtems_bsdnet_newproc(i82544EI_TASK_NAME,4096,i82544EI_daemon,arg); - - /* ...all done! */ - sc->arpcom.ac_if.if_flags |= IFF_RUNNING; - -#ifdef WM_DEBUG - printk(")"); -#endif -} - -/* - * wm_txdrain: - * - * Drain the transmit queue. - */ -static void wm_txdrain(struct wm_softc *sc) -{ - int i; - - /* Release any queued transmit buffers. */ - for (i = 0; i < NTXDESC; i++) { - if (sc->txs_mbuf[i] != NULL) { - m_freem(sc->txs_mbuf[i]); - sc->txs_mbuf[i] = NULL; - } - } -} - -/* - * wm_rxdrain: - * - * Drain the receive queue. - */ -static void wm_rxdrain(struct wm_softc *sc) -{ - int i; - - for (i = 0; i < NRXDESC; i++) { - if (sc->rxs_mbuf[i] != NULL) { - m_freem(sc->rxs_mbuf[i]); - sc->rxs_mbuf[i] = NULL; - } - } -} - -static void i82544EI_tx_stop(struct wm_softc *sc) -{ - wm_txdrain(sc); -} - -static void i82544EI_rx_stop(struct wm_softc *sc) -{ - wm_rxdrain(sc); -} - -static void i82544EI_stop_hw(struct wm_softc *sc) -{ -#ifdef WM_DEBUG - printk("i82544EI_stop_hw("); -#endif - - /* remove our interrupt handler which will also - * disable interrupts at the MPIC and the device - * itself - */ - if (!BSP_remove_rtems_irq_handler(&i82544IrqData)) - rtems_panic("i82544EI: unable to remove IRQ handler!"); - - CSR_WRITE(sc,WMREG_IMS, 0); - - sc->arpcom.ac_if.if_flags &= ~IFF_RUNNING; - i82544EI_tx_stop(sc); - i82544EI_rx_stop(sc); -#ifdef WM_DEBUG - printk(")"); -#endif -} - -/* - * wm_stop: [ifnet interface function] - * - * Stop transmission on the interface. - */ -static void wm_stop(struct ifnet *ifp, int disable) -{ - struct wm_softc *sc = ifp->if_softc; - -#ifdef WM_DEBUG - printk("wm_stop("); -#endif - /* Stop the transmit and receive processes. */ - CSR_WRITE(sc,WMREG_TCTL, 0); - CSR_WRITE(sc,WMREG_RCTL, 0); - - wm_txdrain(sc); - wm_rxdrain(sc); - - /* Mark the interface as down */ - ifp->if_flags &= ~(IFF_RUNNING | IFF_OACTIVE); -#ifdef WM_DEBUG - printk(")\n"); -#endif -} - -/* - * wm_eeprom_sendbits: - * - * Send a series of bits to the EEPROM. - */ -static void wm_eeprom_sendbits(struct wm_softc *sc, uint32_t bits, int nbits) -{ - uint32_t reg; - int x; - - reg = CSR_READ(sc,WMREG_EECD); - - for (x = nbits; x > 0; x--) { - if (bits & (1U << (x - 1))) - reg |= EECD_DI; - else - reg &= ~EECD_DI; - CSR_WRITE(sc,WMREG_EECD, reg); - rtems_bsp_delay(2); - CSR_WRITE(sc,WMREG_EECD, reg | EECD_SK); - rtems_bsp_delay(2); - CSR_WRITE(sc,WMREG_EECD, reg); - rtems_bsp_delay(2); - } -} - -/* - * wm_eeprom_recvbits: - * - * Receive a series of bits from the EEPROM. - */ -static void wm_eeprom_recvbits(struct wm_softc *sc, uint32_t *valp, int nbits) -{ - uint32_t reg, val; - int x; - - reg = CSR_READ(sc,WMREG_EECD) & ~EECD_DI; - - val = 0; - for (x = nbits; x > 0; x--) { - CSR_WRITE(sc,WMREG_EECD, reg | EECD_SK); - rtems_bsp_delay(2); - if (CSR_READ(sc,WMREG_EECD) & EECD_DO) - val |= (1U << (x - 1)); - CSR_WRITE(sc,WMREG_EECD, reg); - rtems_bsp_delay(2); - } - *valp = val; -} - -/* - * wm_read_eeprom_uwire: - * - * Read a word from the EEPROM using the MicroWire protocol. - * - * (The 82544EI Gigabit Ethernet Controller is compatible with - * most MicroWire interface, serial EEPROM devices.) - */ -static int wm_read_eeprom_uwire(struct wm_softc *sc, int word, int wordcnt, uint16_t *data) -{ - uint32_t reg, val; - int i; - - for (i = 0; i < wordcnt; i++) { - /* Clear SK and DI. */ - reg = CSR_READ(sc,WMREG_EECD) & ~(EECD_SK | EECD_DI); - CSR_WRITE(sc,WMREG_EECD, reg); - - /* Set CHIP SELECT. */ - reg |= EECD_CS; - CSR_WRITE(sc,WMREG_EECD, reg); - rtems_bsp_delay(2); - - /* Shift in the READ command. */ - wm_eeprom_sendbits(sc, UWIRE_OPC_READ, 3); - - /* Shift in address. */ - wm_eeprom_sendbits(sc, word + i, sc->sc_ee_addrbits); - - /* Shift out the data. */ - wm_eeprom_recvbits(sc, &val, 16); - data[i] = val & 0xffff; - - /* Clear CHIP SELECT. */ - reg = CSR_READ(sc,WMREG_EECD) & ~EECD_CS; - CSR_WRITE(sc,WMREG_EECD, reg); - rtems_bsp_delay(2); - } - return (0); -} - -#if 0 -/* - * wm_acquire_eeprom: - * - * Perform the EEPROM handshake required on some chips. - */ -static int wm_acquire_eeprom(struct wm_softc *sc) -{ - uint32_t reg; - int x; - - reg = CSR_READ(sc,WMREG_EECD); - - /* Request EEPROM access. */ - reg |= EECD_EE_REQ; - CSR_WRITE(sc,WMREG_EECD, reg); - - /* ..and wait for it to be granted. */ - for (x = 0; x < 100; x++) { - reg = CSR_READ(sc,WMREG_EECD); - if (reg & EECD_EE_GNT) break; - rtems_bsp_delay(500); - } - if ((reg & EECD_EE_GNT) == 0) { - printk("Could not acquire EEPROM GNT x= %d\n", x); - reg &= ~EECD_EE_REQ; - CSR_WRITE(sc,WMREG_EECD, reg); - return (1); - } - - return (0); -} -#endif - -/* - * wm_read_eeprom: - * - * Read data from the serial EEPROM. - * 82544EI does not Perform the EEPROM handshake - */ -static int wm_read_eeprom(struct wm_softc *sc, int word, int wordcnt, uint16_t *data) -{ -#if 0 - /* base on the datasheet, this does not seem to be applicable */ - if (wm_acquire_eeprom(sc)) - return(1); -#endif - return(wm_read_eeprom_uwire(sc, word, wordcnt, data)); -} - -/* - * wm_add_rxbuf: - * - * Add a receive buffer to the indiciated descriptor. - */ -static int wm_add_rxbuf(struct wm_softc *sc, int idx) -{ - struct mbuf *m; - - MGETHDR(m, M_WAIT, MT_DATA); - if (m == NULL) return (ENOBUFS); - MCLGET(m, M_WAIT); - if ((m->m_flags & M_EXT) == 0) { - m_freem(m); - return (ENOBUFS); - } - m->m_pkthdr.rcvif = &sc->arpcom.ac_if; - sc->rxs_mbuf[idx] = m; - /* m->m_len = m->m_pkthdr.len = m->m_ext.ext_size;*/ - wm_init_rxdesc(sc, idx); -#if 0 - printk("sc->rxs_mbuf[%d]= 0x%x, mbuf @ 0x%x\n", - idx, sc->rxs_mbuf[idx], le32toh(sc->sc_rxdescs[idx].wrx_addr.wa_low)); -#endif - return(0); -} - -/* - * wm_set_ral: - * - * Set an entery in the receive address list. - */ -static void -wm_set_ral(struct wm_softc *sc, const uint8_t *enaddr, int idx) -{ - uint32_t ral_lo, ral_hi; - - if (enaddr != NULL) { - ral_lo = enaddr[0]|(enaddr[1] << 8)|(enaddr[2] << 16)|(enaddr[3] << 24); - ral_hi = enaddr[4] | (enaddr[5] << 8); - ral_hi |= RAL_AV; - } else { - ral_lo = 0; - ral_hi = 0; - } - - CSR_WRITE(sc,WMREG_RAL_LO(WMREG_CORDOVA_RAL_BASE, idx),ral_lo); - CSR_WRITE(sc,WMREG_RAL_HI(WMREG_CORDOVA_RAL_BASE, idx),ral_hi); -} - -/* - * wm_mchash: - * - * Compute the hash of the multicast address for the 4096-bit - * multicast filter. - */ -static uint32_t -wm_mchash(struct wm_softc *sc, const uint8_t *enaddr) -{ - static const int lo_shift[4] = { 4, 3, 2, 0 }; - static const int hi_shift[4] = { 4, 5, 6, 8 }; - uint32_t hash; - - hash = (enaddr[4] >> lo_shift[sc->sc_mchash_type]) | - (((uint16_t) enaddr[5]) << hi_shift[sc->sc_mchash_type]); - - return (hash & 0xfff); -} - -/* - * wm_set_filter: Set up the receive filter. - */ -static void wm_set_filter(struct wm_softc *sc) -{ - struct ifnet *ifp = &sc->arpcom.ac_if; - struct ether_multi *enm; - struct ether_multistep step; - uint32_t mta_reg; - uint32_t hash, reg, bit; - int i; - -#ifdef WM_DEBUG - printk("wm_set_filter("); -#endif - mta_reg = WMREG_CORDOVA_MTA; - sc->sc_rctl &= ~(RCTL_BAM | RCTL_UPE | RCTL_MPE); - - if (ifp->if_flags & IFF_BROADCAST) - sc->sc_rctl |= RCTL_BAM; - if (ifp->if_flags & IFF_PROMISC) { - sc->sc_rctl |= RCTL_UPE; - goto allmulti; - } - - /* - * Set the station address in the first RAL slot, and - * clear the remaining slots. - */ - wm_set_ral(sc, sc->arpcom.ac_enaddr, 0); - for (i = 1; i < WM_RAL_TABSIZE; i++) - wm_set_ral(sc, NULL, i); - - /* Clear out the multicast table. */ - for (i = 0; i < WM_MC_TABSIZE; i++) - CSR_WRITE(sc,mta_reg + (i << 2), 0); - - ETHER_FIRST_MULTI(step, &sc->arpcom, enm); - while (enm != NULL) { - if (memcmp(enm->enm_addrlo, enm->enm_addrhi, ETHER_ADDR_LEN)) { - /* - * We must listen to a range of multicast addresses. - * For now, just accept all multicasts, rather than - * trying to set only those filter bits needed to match - * the range. (At this time, the only use of address - * ranges is for IP multicast routing, for which the - * range is big enough to require all bits set.) - */ - goto allmulti; - } - - hash = wm_mchash(sc, enm->enm_addrlo); - - reg = (hash >> 5) & 0x7f; - bit = hash & 0x1f; - - hash = CSR_READ(sc,mta_reg + (reg << 2)); - hash |= 1U << bit; - - /* XXX Hardware bug?? */ - if ((reg & 0xe) == 1) { - bit = CSR_READ(sc,mta_reg + ((reg - 1) << 2)); - CSR_WRITE(sc,mta_reg + (reg << 2), hash); - CSR_WRITE(sc,mta_reg + ((reg - 1) << 2), bit); - } else - CSR_WRITE(sc,mta_reg + (reg << 2), hash); - - ETHER_NEXT_MULTI(step, enm); - } - - ifp->if_flags &= ~IFF_ALLMULTI; - goto setit; - - allmulti: - ifp->if_flags |= IFF_ALLMULTI; - sc->sc_rctl |= RCTL_MPE; - - setit: - CSR_WRITE(sc,WMREG_RCTL, sc->sc_rctl); - -#ifdef WM_DEBUG - printk("RCTL 0x%x)\n", CSR_READ(sc,WMREG_RCTL)); -#endif -} - -static void i82544EI_error(struct wm_softc *sc) -{ - struct ifnet *ifp = &sc->arpcom.ac_if; - unsigned long intr_status= sc->if_errsts[sc->if_err_ptr1]; - - /* read and reset the status; because this is written - * by the ISR, we must disable interrupts here - */ - if (intr_status) { - printk("Error %s%d:", ifp->if_name, ifp->if_unit); - if (intr_status & ICR_RXSEQ) { - printk("Rxq framing error (ICR= %x), if_ierrors %d\n", - intr_status, ifp->if_ierrors); - } - } - else - printk("%s%d: Ghost interrupt ?\n",ifp->if_name,ifp->if_unit); - sc->if_errsts[sc->if_err_ptr1]=0; - if ((++sc->if_err_ptr1)==IF_ERR_BUFSZE) sc->if_err_ptr1=0; /* Till Straumann */ -} - -void i82544EI_printStats(void) -{ - i82544EI_stats(root_i82544EI_dev); -} - -/* The daemon does all of the work; RX, TX and cleaning up buffers/descriptors */ -static void i82544EI_daemon(void *arg) -{ - struct wm_softc *sc = (struct wm_softc*)arg; - rtems_event_set events; - struct mbuf *m=0; - struct ifnet *ifp=&sc->arpcom.ac_if; - -#ifdef WM_DEBUG - printk("i82544EI_daemon()\n"); -#endif - - /* NOTE: our creator possibly holds the bsdnet_semaphore. - * since that has PRIORITY_INVERSION enabled, our - * subsequent call to bsdnet_event_receive() will - * _not_ release it. It's still in posession of our - * owner. - * This is different from how killing this task - * is handled. - */ - - for (;;) { - /* sleep until there's work to be done */ - /* Note: bsdnet_event_receive() acquires - * the global bsdnet semaphore for - * mutual exclusion. - */ - rtems_bsdnet_event_receive(ALL_EVENTS, - RTEMS_WAIT | RTEMS_EVENT_ANY, - RTEMS_NO_TIMEOUT, - &events); - if (KILL_EVENT & events) break; - - if (events & RX_EVENT) i82544EI_rx(sc); /* in ISR instead */ - - /* clean up and try sending packets */ - do { - i82544EI_txq_done(sc); - - while (sc->txq_free>0) { - if (sc->txq_free>TXQ_HiLmt_OFF) { - m=0; - IF_DEQUEUE(&ifp->if_snd,m); - if (m==0) break; - i82544EI_sendpacket(sc, m); - } - else { - i82544EI_txq_done(sc); - break; - } - } - /* we leave this loop - * - either because there's no free buffer - * (m=0 initializer && !sc->txq_free) - * - or there's nothing to send (IF_DEQUEUE - * returned 0 - */ - } while (m); - - ifp->if_flags &= ~IFF_OACTIVE; - - /* Log errors and other uncommon events. */ - if (events & ERR_EVENT) i82544EI_error(sc); - /* Rx overrun */ - if ( events & INIT_EVENT) { - printk("Warnning, Rx overrun. Make sure the old mbuf was free\n"); - i82544EI_ifinit(arg); - } - - } /* end for(;;) { rtems_bsdnet_event_receive() .....*/ - - printf("out of daemon\n"); - ifp->if_flags &= ~(IFF_RUNNING|IFF_OACTIVE); - - /* shut down the hardware */ - i82544EI_stop_hw(sc); - /* flush the output queue */ - for (;;) { - IF_DEQUEUE(&ifp->if_snd,m); - if (!m) break; - m_freem(m); - } - /* as of 'rtems_bsdnet_event_receive()' we own the - * networking semaphore - */ - rtems_bsdnet_semaphore_release(); - rtems_semaphore_release(sc->daemonSync); - - /* Note that I dont use sc->daemonTid here - - * theoretically, that variable could already - * hold a newly created TID - */ - rtems_task_exit(); -} - -/* - * wm_gmii_reset: - * - * Reset the PHY. - */ -static void wm_gmii_reset(struct wm_softc *sc) -{ - - CSR_WRITE(sc, WMREG_CTRL, sc->sc_ctrl | CTRL_PHY_RESET); - rtems_bsp_delay(20000); - - CSR_WRITE(sc, WMREG_CTRL, sc->sc_ctrl); - rtems_bsp_delay(20000); - -} - -/* - * wm_gmii_mediainit: - * - * Initialize media for use on 1000BASE-T devices. - */ -static void wm_gmii_mediainit(struct wm_softc *sc) -{ - /* struct ifnet *ifp = &sc->arpcom.ac_if;*/ - - /* We have MII. */ - sc->sc_flags |= WM_F_HAS_MII; - -#if 0 - /* May 2009 : The value that should be programmed into IPGT is 10 */ - sc->sc_tipg = TIPG_IPGT(10)+TIPG_IPGR1(8)+TIPG_IPGR2(6); -#else - sc->sc_tipg = TIPG_1000T_DFLT; /* 0x602008 */ -#endif - - /* - * Let the chip set speed/duplex on its own based on - * signals from the PHY. - * XXXbouyer - I'm not sure this is right for the 80003, - * the em driver only sets CTRL_SLU here - but it seems to work. - */ - sc->sc_ctrl |= CTRL_SLU; - CSR_WRITE(sc, WMREG_CTRL, sc->sc_ctrl); - - wm_gmii_reset(sc); - -#if 0 - /* Initialize our media structures and probe the GMII. */ - sc->sc_mii.mii_ifp = ifp; - - sc->sc_mii.mii_readreg = wm_gmii_i82544_readreg; - sc->sc_mii.mii_writereg = wm_gmii_i82544_writereg; - sc->sc_mii.mii_statchg = wm_gmii_statchg; - - ifmedia_init(&sc->sc_mii.mii_media, IFM_IMASK, wm_gmii_mediachange, - wm_gmii_mediastatus); - - mii_attach(&sc->sc_dev, &sc->sc_mii, 0xffffffff, MII_PHY_ANY, - MII_OFFSET_ANY, MIIF_DOPAUSE); - if (LIST_FIRST(&sc->sc_mii.mii_phys) == NULL) { - ifmedia_add(&sc->sc_mii.mii_media, IFM_ETHER|IFM_NONE, 0, NULL); - ifmedia_set(&sc->sc_mii.mii_media, IFM_ETHER|IFM_NONE); - } else - ifmedia_set(&sc->sc_mii.mii_media, IFM_ETHER|IFM_AUTO); -#endif -} -- cgit v1.2.3