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Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/nge/@/dev/ed/if_ed_hpp.c |
/*- * Copyright (c) 2005, M. Warner Losh * All rights reserved. * Copyright (c) 1995, David Greenman * 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 unmodified, 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 AND CONTRIBUTORS ``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 CONTRIBUTORS 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 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. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/dev/ed/if_ed_hpp.c 154924 2006-01-27 19:10:13Z imp $"); #include "opt_ed.h" #ifdef ED_HPP #include <sys/param.h> #include <sys/systm.h> #include <sys/sockio.h> #include <sys/mbuf.h> #include <sys/kernel.h> #include <sys/socket.h> #include <sys/syslog.h> #include <sys/bus.h> #include <machine/bus.h> #include <sys/rman.h> #include <machine/resource.h> #include <net/ethernet.h> #include <net/if.h> #include <net/if_arp.h> #include <net/if_dl.h> #include <net/if_mib.h> #include <net/if_media.h> #include <net/bpf.h> #include <dev/ed/if_edreg.h> #include <dev/ed/if_edvar.h> static void ed_hpp_readmem(struct ed_softc *, bus_size_t, uint8_t *, uint16_t); static void ed_hpp_writemem(struct ed_softc *, uint8_t *, uint16_t, uint16_t); static void ed_hpp_set_physical_link(struct ed_softc *sc); static u_short ed_hpp_write_mbufs(struct ed_softc *, struct mbuf *, bus_size_t); /* * Interrupt conversion table for the HP PC LAN+ */ static uint16_t ed_hpp_intr_val[] = { 0, /* 0 */ 0, /* 1 */ 0, /* 2 */ 3, /* 3 */ 4, /* 4 */ 5, /* 5 */ 6, /* 6 */ 7, /* 7 */ 0, /* 8 */ 9, /* 9 */ 10, /* 10 */ 11, /* 11 */ 12, /* 12 */ 0, /* 13 */ 0, /* 14 */ 15 /* 15 */ }; #define ED_HPP_TEST_SIZE 16 /* * Probe and vendor specific initialization for the HP PC Lan+ Cards. * (HP Part nos: 27247B and 27252A). * * The card has an asic wrapper around a DS8390 core. The asic handles * host accesses and offers both standard register IO and memory mapped * IO. Memory mapped I/O allows better performance at the expense of greater * chance of an incompatibility with existing ISA cards. * * The card has a few caveats: it isn't tolerant of byte wide accesses, only * short (16 bit) or word (32 bit) accesses are allowed. Some card revisions * don't allow 32 bit accesses; these are indicated by a bit in the software * ID register (see if_edreg.h). * * Other caveats are: we should read the MAC address only when the card * is inactive. * * For more information; please consult the CRYNWR packet driver. * * The AUI port is turned on using the "link2" option on the ifconfig * command line. */ int ed_probe_HP_pclanp(device_t dev, int port_rid, int flags) { struct ed_softc *sc = device_get_softc(dev); int error; int n; /* temp var */ int memsize; /* mem on board */ u_char checksum; /* checksum of board address */ u_char irq; /* board configured IRQ */ uint8_t test_pattern[ED_HPP_TEST_SIZE]; /* read/write areas for */ uint8_t test_buffer[ED_HPP_TEST_SIZE]; /* probing card */ u_long conf_maddr, conf_msize, conf_irq, junk; error = ed_alloc_port(dev, 0, ED_HPP_IO_PORTS); if (error) return (error); /* Fill in basic information */ sc->asic_offset = ED_HPP_ASIC_OFFSET; sc->nic_offset = ED_HPP_NIC_OFFSET; sc->chip_type = ED_CHIP_TYPE_DP8390; sc->isa16bit = 0; /* the 8390 core needs to be in byte mode */ /* * Look for the HP PCLAN+ signature: "0x50,0x48,0x00,0x53" */ if ((ed_asic_inb(sc, ED_HPP_ID) != 0x50) || (ed_asic_inb(sc, ED_HPP_ID + 1) != 0x48) || ((ed_asic_inb(sc, ED_HPP_ID + 2) & 0xF0) != 0) || (ed_asic_inb(sc, ED_HPP_ID + 3) != 0x53)) return (ENXIO); /* * Read the MAC address and verify checksum on the address. */ ed_asic_outw(sc, ED_HPP_PAGING, ED_HPP_PAGE_MAC); for (n = 0, checksum = 0; n < ETHER_ADDR_LEN; n++) checksum += (sc->enaddr[n] = ed_asic_inb(sc, ED_HPP_MAC_ADDR + n)); checksum += ed_asic_inb(sc, ED_HPP_MAC_ADDR + ETHER_ADDR_LEN); if (checksum != 0xFF) return (ENXIO); /* * Verify that the software model number is 0. */ ed_asic_outw(sc, ED_HPP_PAGING, ED_HPP_PAGE_ID); if (((sc->hpp_id = ed_asic_inw(sc, ED_HPP_PAGE_4)) & ED_HPP_ID_SOFT_MODEL_MASK) != 0x0000) return (ENXIO); /* * Read in and save the current options configured on card. */ sc->hpp_options = ed_asic_inw(sc, ED_HPP_OPTION); sc->hpp_options |= (ED_HPP_OPTION_NIC_RESET | ED_HPP_OPTION_CHIP_RESET | ED_HPP_OPTION_ENABLE_IRQ); /* * Reset the chip. This requires writing to the option register * so take care to preserve the other bits. */ ed_asic_outw(sc, ED_HPP_OPTION, (sc->hpp_options & ~(ED_HPP_OPTION_NIC_RESET | ED_HPP_OPTION_CHIP_RESET))); DELAY(5000); /* wait for chip reset to complete */ ed_asic_outw(sc, ED_HPP_OPTION, (sc->hpp_options | (ED_HPP_OPTION_NIC_RESET | ED_HPP_OPTION_CHIP_RESET | ED_HPP_OPTION_ENABLE_IRQ))); DELAY(5000); if (!(ed_nic_inb(sc, ED_P0_ISR) & ED_ISR_RST)) return (ENXIO); /* reset did not complete */ /* * Read out configuration information. */ ed_asic_outw(sc, ED_HPP_PAGING, ED_HPP_PAGE_HW); irq = ed_asic_inb(sc, ED_HPP_HW_IRQ); /* * Check for impossible IRQ. */ if (irq >= (sizeof(ed_hpp_intr_val) / sizeof(ed_hpp_intr_val[0]))) return (ENXIO); /* * If the kernel IRQ was specified with a '?' use the cards idea * of the IRQ. If the kernel IRQ was explicitly specified, it * should match that of the hardware. */ error = bus_get_resource(dev, SYS_RES_IRQ, 0, &conf_irq, &junk); if (error) bus_set_resource(dev, SYS_RES_IRQ, 0, ed_hpp_intr_val[irq], 1); else { if (conf_irq != ed_hpp_intr_val[irq]) return (ENXIO); } /* * Fill in softconfig info. */ sc->vendor = ED_VENDOR_HP; sc->type = ED_TYPE_HP_PCLANPLUS; sc->type_str = "HP-PCLAN+"; sc->mem_shared = 0; /* we DON'T have dual ported RAM */ sc->mem_start = 0; /* we use offsets inside the card RAM */ sc->hpp_mem_start = NULL;/* no memory mapped I/O by default */ /* * The board has 32KB of memory. Is there a way to determine * this programmatically? */ memsize = 32768; /* * Check if memory mapping of the I/O registers possible. */ if (sc->hpp_options & ED_HPP_OPTION_MEM_ENABLE) { u_long mem_addr; /* * determine the memory address from the board. */ ed_asic_outw(sc, ED_HPP_PAGING, ED_HPP_PAGE_HW); mem_addr = (ed_asic_inw(sc, ED_HPP_HW_MEM_MAP) << 8); /* * Check that the kernel specified start of memory and * hardware's idea of it match. */ error = bus_get_resource(dev, SYS_RES_MEMORY, 0, &conf_maddr, &conf_msize); if (error) return (error); if (mem_addr != conf_maddr) return (ENXIO); error = ed_alloc_memory(dev, 0, memsize); if (error) return (error); sc->hpp_mem_start = rman_get_virtual(sc->mem_res); } /* * Fill in the rest of the soft config structure. */ /* * The transmit page index. */ sc->tx_page_start = ED_HPP_TX_PAGE_OFFSET; if (device_get_flags(dev) & ED_FLAGS_NO_MULTI_BUFFERING) sc->txb_cnt = 1; else sc->txb_cnt = 2; /* * Memory description */ sc->mem_size = memsize; sc->mem_ring = sc->mem_start + (sc->txb_cnt * ED_PAGE_SIZE * ED_TXBUF_SIZE); sc->mem_end = sc->mem_start + sc->mem_size; /* * Receive area starts after the transmit area and * continues till the end of memory. */ sc->rec_page_start = sc->tx_page_start + (sc->txb_cnt * ED_TXBUF_SIZE); sc->rec_page_stop = (sc->mem_size / ED_PAGE_SIZE); sc->cr_proto = 0; /* value works */ /* * Set the wrap registers for string I/O reads. */ ed_asic_outw(sc, ED_HPP_PAGING, ED_HPP_PAGE_HW); ed_asic_outw(sc, ED_HPP_HW_WRAP, ((sc->rec_page_start / ED_PAGE_SIZE) | (((sc->rec_page_stop / ED_PAGE_SIZE) - 1) << 8))); /* * Reset the register page to normal operation. */ ed_asic_outw(sc, ED_HPP_PAGING, ED_HPP_PAGE_PERF); /* * Verify that we can read/write from adapter memory. * Create test pattern. */ for (n = 0; n < ED_HPP_TEST_SIZE; n++) test_pattern[n] = (n*n) ^ ~n; #undef ED_HPP_TEST_SIZE /* * Check that the memory is accessible thru the I/O ports. * Write out the contents of "test_pattern", read back * into "test_buffer" and compare the two for any * mismatch. */ for (n = 0; n < (32768 / ED_PAGE_SIZE); n ++) { ed_hpp_writemem(sc, test_pattern, (n * ED_PAGE_SIZE), sizeof(test_pattern)); ed_hpp_readmem(sc, (n * ED_PAGE_SIZE), test_buffer, sizeof(test_pattern)); if (bcmp(test_pattern, test_buffer, sizeof(test_pattern))) return (ENXIO); } sc->sc_mediachg = ed_hpp_set_physical_link; sc->sc_write_mbufs = ed_hpp_write_mbufs; sc->readmem = ed_hpp_readmem; return (0); } /* * HP PC Lan+ : Set the physical link to use AUI or TP/TL. */ static void ed_hpp_set_physical_link(struct ed_softc *sc) { struct ifnet *ifp = sc->ifp; int lan_page; ed_asic_outw(sc, ED_HPP_PAGING, ED_HPP_PAGE_LAN); lan_page = ed_asic_inw(sc, ED_HPP_PAGE_0); if (ifp->if_flags & IFF_LINK2) { /* * Use the AUI port. */ lan_page |= ED_HPP_LAN_AUI; ed_asic_outw(sc, ED_HPP_PAGING, ED_HPP_PAGE_LAN); ed_asic_outw(sc, ED_HPP_PAGE_0, lan_page); } else { /* * Use the ThinLan interface */ lan_page &= ~ED_HPP_LAN_AUI; ed_asic_outw(sc, ED_HPP_PAGING, ED_HPP_PAGE_LAN); ed_asic_outw(sc, ED_HPP_PAGE_0, lan_page); } /* * Wait for the lan card to re-initialize itself */ DELAY(150000); /* wait 150 ms */ /* * Restore normal pages. */ ed_asic_outw(sc, ED_HPP_PAGING, ED_HPP_PAGE_PERF); } /* * Support routines to handle the HP PC Lan+ card. */ /* * HP PC Lan+: Read from NIC memory, using either PIO or memory mapped * IO. */ static void ed_hpp_readmem(struct ed_softc *sc, bus_size_t src, uint8_t *dst, uint16_t amount) { int use_32bit_access = !(sc->hpp_id & ED_HPP_ID_16_BIT_ACCESS); /* Program the source address in RAM */ ed_asic_outw(sc, ED_HPP_PAGE_2, src); /* * The HP PC Lan+ card supports word reads as well as * a memory mapped i/o port that is aliased to every * even address on the board. */ if (sc->hpp_mem_start) { /* Enable memory mapped access. */ ed_asic_outw(sc, ED_HPP_OPTION, sc->hpp_options & ~(ED_HPP_OPTION_MEM_DISABLE | ED_HPP_OPTION_BOOT_ROM_ENB)); if (use_32bit_access && (amount > 3)) { uint32_t *dl = (uint32_t *) dst; volatile uint32_t *const sl = (uint32_t *) sc->hpp_mem_start; uint32_t *const fence = dl + (amount >> 2); /* * Copy out NIC data. We could probably write this * as a `movsl'. The currently generated code is lousy. */ while (dl < fence) *dl++ = *sl; dst += (amount & ~3); amount &= 3; } /* Finish off any words left, as a series of short reads */ if (amount > 1) { u_short *d = (u_short *) dst; volatile u_short *const s = (u_short *) sc->hpp_mem_start; u_short *const fence = d + (amount >> 1); /* Copy out NIC data. */ while (d < fence) *d++ = *s; dst += (amount & ~1); amount &= 1; } /* * read in a byte; however we need to always read 16 bits * at a time or the hardware gets into a funny state */ if (amount == 1) { /* need to read in a short and copy LSB */ volatile u_short *const s = (volatile u_short *) sc->hpp_mem_start; *dst = (*s) & 0xFF; } /* Restore Boot ROM access. */ ed_asic_outw(sc, ED_HPP_OPTION, sc->hpp_options); } else { /* Read in data using the I/O port */ if (use_32bit_access && (amount > 3)) { ed_asic_insl(sc, ED_HPP_PAGE_4, dst, amount >> 2); dst += (amount & ~3); amount &= 3; } if (amount > 1) { ed_asic_insw(sc, ED_HPP_PAGE_4, dst, amount >> 1); dst += (amount & ~1); amount &= 1; } if (amount == 1) { /* read in a short and keep the LSB */ *dst = ed_asic_inw(sc, ED_HPP_PAGE_4) & 0xFF; } } } /* * HP PC Lan+: Write to NIC memory, using either PIO or memory mapped * IO. * Only used in the probe routine to test the memory. 'len' must * be even. */ static void ed_hpp_writemem(struct ed_softc *sc, uint8_t *src, uint16_t dst, uint16_t len) { /* reset remote DMA complete flag */ ed_nic_outb(sc, ED_P0_ISR, ED_ISR_RDC); /* program the write address in RAM */ ed_asic_outw(sc, ED_HPP_PAGE_0, dst); if (sc->hpp_mem_start) { u_short *s = (u_short *) src; volatile u_short *d = (u_short *) sc->hpp_mem_start; u_short *const fence = s + (len >> 1); /* * Enable memory mapped access. */ ed_asic_outw(sc, ED_HPP_OPTION, sc->hpp_options & ~(ED_HPP_OPTION_MEM_DISABLE | ED_HPP_OPTION_BOOT_ROM_ENB)); /* * Copy to NIC memory. */ while (s < fence) *d = *s++; /* * Restore Boot ROM access. */ ed_asic_outw(sc, ED_HPP_OPTION, sc->hpp_options); } else { /* write data using I/O writes */ ed_asic_outsw(sc, ED_HPP_PAGE_4, src, len / 2); } } /* * Write to HP PC Lan+ NIC memory. Access to the NIC can be by using * outsw() or via the memory mapped interface to the same register. * Writes have to be in word units; byte accesses won't work and may cause * the NIC to behave weirdly. Long word accesses are permitted if the ASIC * allows it. */ static u_short ed_hpp_write_mbufs(struct ed_softc *sc, struct mbuf *m, bus_size_t dst) { int len, wantbyte; unsigned short total_len; unsigned char savebyte[2]; volatile u_short * const d = (volatile u_short *) sc->hpp_mem_start; int use_32bit_accesses = !(sc->hpp_id & ED_HPP_ID_16_BIT_ACCESS); /* select page 0 registers */ ed_nic_outb(sc, ED_P0_CR, sc->cr_proto | ED_CR_STA); /* reset remote DMA complete flag */ ed_nic_outb(sc, ED_P0_ISR, ED_ISR_RDC); /* program the write address in RAM */ ed_asic_outw(sc, ED_HPP_PAGE_0, dst); if (sc->hpp_mem_start) /* enable memory mapped I/O */ ed_asic_outw(sc, ED_HPP_OPTION, sc->hpp_options & ~(ED_HPP_OPTION_MEM_DISABLE | ED_HPP_OPTION_BOOT_ROM_ENB)); wantbyte = 0; total_len = 0; if (sc->hpp_mem_start) { /* Memory mapped I/O port */ while (m) { total_len += (len = m->m_len); if (len) { caddr_t data = mtod(m, caddr_t); /* finish the last word of the previous mbuf */ if (wantbyte) { savebyte[1] = *data; *d = *((u_short *) savebyte); data++; len--; wantbyte = 0; } /* output contiguous words */ if ((len > 3) && (use_32bit_accesses)) { volatile uint32_t *const dl = (volatile uint32_t *) d; uint32_t *sl = (uint32_t *) data; uint32_t *fence = sl + (len >> 2); while (sl < fence) *dl = *sl++; data += (len & ~3); len &= 3; } /* finish off remain 16 bit writes */ if (len > 1) { u_short *s = (u_short *) data; u_short *fence = s + (len >> 1); while (s < fence) *d = *s++; data += (len & ~1); len &= 1; } /* save last byte if needed */ if ((wantbyte = (len == 1)) != 0) savebyte[0] = *data; } m = m->m_next; /* to next mbuf */ } if (wantbyte) /* write last byte */ *d = *((u_short *) savebyte); } else { /* use programmed I/O */ while (m) { total_len += (len = m->m_len); if (len) { caddr_t data = mtod(m, caddr_t); /* finish the last word of the previous mbuf */ if (wantbyte) { savebyte[1] = *data; ed_asic_outw(sc, ED_HPP_PAGE_4, *((u_short *)savebyte)); data++; len--; wantbyte = 0; } /* output contiguous words */ if ((len > 3) && use_32bit_accesses) { ed_asic_outsl(sc, ED_HPP_PAGE_4, data, len >> 2); data += (len & ~3); len &= 3; } /* finish off remaining 16 bit accesses */ if (len > 1) { ed_asic_outsw(sc, ED_HPP_PAGE_4, data, len >> 1); data += (len & ~1); len &= 1; } if ((wantbyte = (len == 1)) != 0) savebyte[0] = *data; } /* if len != 0 */ m = m->m_next; } if (wantbyte) /* spit last byte */ ed_asic_outw(sc, ED_HPP_PAGE_4, *(u_short *)savebyte); } if (sc->hpp_mem_start) /* turn off memory mapped i/o */ ed_asic_outw(sc, ED_HPP_OPTION, sc->hpp_options); return (total_len); } #endif /* ED_HPP */