Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/usb/uchcom/@/dev/utopia/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/usb/uchcom/@/dev/utopia/idtphy.c |
/*- * Copyright (c) 2003 * Fraunhofer Institute for Open Communication Systems (FhG Fokus). * All rights reserved. * * Author: Hartmut Brandt <harti@freebsd.org> * * 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 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/utopia/idtphy.c 142384 2005-02-24 16:56:36Z harti $"); #include <sys/param.h> #include <sys/systm.h> #include <sys/unistd.h> #include <sys/kernel.h> #include <sys/kthread.h> #include <sys/proc.h> #include <sys/bus.h> #include <sys/malloc.h> #include <sys/module.h> #include <sys/sysctl.h> #include <sys/lock.h> #include <sys/mutex.h> #include <sys/socket.h> #include <net/if.h> #include <net/if_var.h> #include <net/if_media.h> #include <net/if_atm.h> #include <dev/utopia/idtphy.h> #include <dev/utopia/utopia.h> #include <dev/utopia/utopia_priv.h> /* * Reset IDT77105. There is really no way to reset this thing by acessing * the registers. Load the registers with default values. */ static int idt77105_reset(struct utopia *utp) { int err = 0; u_int n; uint8_t val[2]; err |= UTP_WRITEREG(utp, IDTPHY_REGO_MCR, 0xff, IDTPHY_REGM_MCR_DRIC | IDTPHY_REGM_MCR_EI); n = 1; err |= UTP_READREGS(utp, IDTPHY_REGO_ISTAT, val, &n); err |= UTP_WRITEREG(utp, IDTPHY_REGO_DIAG, 0xff, 0); err |= UTP_WRITEREG(utp, IDTPHY_REGO_LHEC, 0xff, 0); err |= UTP_WRITEREG(utp, IDTPHY_REGO_CNTS, 0xff, IDTPHY_REGM_CNTS_SEC); n = 2; err |= UTP_READREGS(utp, IDTPHY_REGO_CNT, val, &n); err |= UTP_WRITEREG(utp, IDTPHY_REGO_CNTS, 0xff, IDTPHY_REGM_CNTS_TX); n = 2; err |= UTP_READREGS(utp, IDTPHY_REGO_CNT, val, &n); err |= UTP_WRITEREG(utp, IDTPHY_REGO_CNTS, 0xff, IDTPHY_REGM_CNTS_RX); n = 2; err |= UTP_READREGS(utp, IDTPHY_REGO_CNT, val, &n); err |= UTP_WRITEREG(utp, IDTPHY_REGO_CNTS, 0xff, IDTPHY_REGM_CNTS_HECE); n = 2; err |= UTP_READREGS(utp, IDTPHY_REGO_CNT, val, &n); err |= UTP_WRITEREG(utp, IDTPHY_REGO_MCR, IDTPHY_REGM_MCR_DREC, IDTPHY_REGM_MCR_DREC); err |= UTP_WRITEREG(utp, IDTPHY_REGO_DIAG, IDTPHY_REGM_DIAG_RFLUSH, IDTPHY_REGM_DIAG_RFLUSH); /* loopback */ err |= utopia_set_loopback(utp, utp->loopback); /* update carrier state */ err |= utopia_update_carrier(utp); return (err ? EIO : 0); } static int idt77105_inval(struct utopia *utp, int what __unused) { return (EINVAL); } static int idt77105_update_carrier(struct utopia *utp) { int err; uint8_t reg; u_int n = 1; if ((err = UTP_READREGS(utp, IDTPHY_REGO_ISTAT, ®, &n)) != 0) { utp->carrier = UTP_CARR_UNKNOWN; return (err); } utopia_check_carrier(utp, reg & IDTPHY_REGM_ISTAT_GOOD); return (0); } static int idt77105_set_loopback(struct utopia *utp, u_int mode) { int err; switch (mode) { case UTP_LOOP_NONE: err = UTP_WRITEREG(utp, IDTPHY_REGO_DIAG, IDTPHY_REGM_DIAG_LOOP, IDTPHY_REGM_DIAG_LOOP_NONE); break; case UTP_LOOP_DIAG: err = UTP_WRITEREG(utp, IDTPHY_REGO_DIAG, IDTPHY_REGM_DIAG_LOOP, IDTPHY_REGM_DIAG_LOOP_PHY); break; case UTP_LOOP_LINE: err = UTP_WRITEREG(utp, IDTPHY_REGO_DIAG, IDTPHY_REGM_DIAG_LOOP, IDTPHY_REGM_DIAG_LOOP_LINE); break; default: return (EINVAL); } if (err) return (err); utp->loopback = mode; return (0); } /* * Handle interrupt on IDT77105 chip */ static void idt77105_intr(struct utopia *utp) { uint8_t reg; u_int n = 1; int err; /* Interrupt status and ack the interrupt */ if ((err = UTP_READREGS(utp, IDTPHY_REGO_ISTAT, ®, &n)) != 0) { printf("IDT77105 read error %d\n", err); return; } /* check for signal condition */ utopia_check_carrier(utp, reg & IDTPHY_REGM_ISTAT_GOOD); } static void idt77105_update_stats(struct utopia *utp) { int err = 0; uint8_t regs[2]; u_int n; #ifdef DIAGNOSTIC #define UDIAG(F,A,B) printf(F, A, B) #else #define UDIAG(F,A,B) do { } while (0) #endif #define UPD(FIELD, CODE, N, MASK) \ err = UTP_WRITEREG(utp, IDTPHY_REGO_CNTS, 0xff, CODE); \ if (err != 0) { \ UDIAG("%s: cannot write CNTS: %d\n", __func__, err); \ return; \ } \ n = N; \ err = UTP_READREGS(utp, IDTPHY_REGO_CNT, regs, &n); \ if (err != 0) { \ UDIAG("%s: cannot read CNT: %d\n", __func__, err); \ return; \ } \ if (n != N) { \ UDIAG("%s: got only %u registers\n", __func__, n); \ return; \ } \ if (N == 1) \ utp->stats.FIELD += (regs[0] & MASK); \ else \ utp->stats.FIELD += (regs[0] | (regs[1] << 8)) & MASK; UPD(rx_symerr, IDTPHY_REGM_CNTS_SEC, 1, 0xff); UPD(tx_cells, IDTPHY_REGM_CNTS_TX, 2, 0xffff); UPD(rx_cells, IDTPHY_REGM_CNTS_RX, 2, 0xffff); UPD(rx_uncorr, IDTPHY_REGM_CNTS_HECE, 1, 0x1f); #undef UDIAG #undef UPD } struct utopia_chip utopia_chip_idt77105 = { UTP_TYPE_IDT77105, "IDT77105", 7, idt77105_reset, idt77105_inval, idt77105_inval, idt77105_inval, idt77105_update_carrier, idt77105_set_loopback, idt77105_intr, idt77105_update_stats, }; /* * Update the carrier status */ static int idt77155_update_carrier(struct utopia *utp) { int err; uint8_t reg; u_int n = 1; if ((err = UTP_READREGS(utp, IDTPHY_REGO_RSOS, ®, &n)) != 0) { utp->carrier = UTP_CARR_UNKNOWN; return (err); } utopia_check_carrier(utp, !(reg & IDTPHY_REGM_RSOS_LOS)); return (0); } /* * Handle interrupt on IDT77155 chip */ static void idt77155_intr(struct utopia *utp) { uint8_t reg; u_int n = 1; int err; if ((err = UTP_READREGS(utp, IDTPHY_REGO_RSOS, ®, &n)) != 0) { printf("IDT77105 read error %d\n", err); return; } utopia_check_carrier(utp, !(reg & IDTPHY_REGM_RSOS_LOS)); } /* * set SONET/SDH mode */ static int idt77155_set_sdh(struct utopia *utp, int sdh) { int err; if (sdh) err = UTP_WRITEREG(utp, IDTPHY_REGO_PTRM, IDTPHY_REGM_PTRM_SS, IDTPHY_REGM_PTRM_SDH); else err = UTP_WRITEREG(utp, IDTPHY_REGO_PTRM, IDTPHY_REGM_PTRM_SS, IDTPHY_REGM_PTRM_SONET); if (err != 0) return (err); utp->state &= ~UTP_ST_SDH; if (sdh) utp->state |= UTP_ST_SDH; return (0); } /* * set idle/unassigned cells */ static int idt77155_set_unass(struct utopia *utp, int unass) { int err; if (unass) err = UTP_WRITEREG(utp, IDTPHY_REGO_TCHP, 0xff, 0); else err = UTP_WRITEREG(utp, IDTPHY_REGO_TCHP, 0xff, 1); if (err != 0) return (err); utp->state &= ~UTP_ST_UNASS; if (unass) utp->state |= UTP_ST_UNASS; return (0); } /* * enable/disable scrambling */ static int idt77155_set_noscramb(struct utopia *utp, int noscramb) { int err; if (noscramb) { err = UTP_WRITEREG(utp, IDTPHY_REGO_TCC, IDTPHY_REGM_TCC_DSCR, IDTPHY_REGM_TCC_DSCR); if (err) return (err); err = UTP_WRITEREG(utp, IDTPHY_REGO_RCC, IDTPHY_REGM_RCC_DSCR, IDTPHY_REGM_RCC_DSCR); if (err) return (err); utp->state |= UTP_ST_NOSCRAMB; } else { err = UTP_WRITEREG(utp, IDTPHY_REGO_TCC, IDTPHY_REGM_TCC_DSCR, 0); if (err) return (err); err = UTP_WRITEREG(utp, IDTPHY_REGO_RCC, IDTPHY_REGM_RCC_DSCR, 0); if (err) return (err); utp->state &= ~UTP_ST_NOSCRAMB; } return (0); } /* * Set loopback mode for the 77155 */ static int idt77155_set_loopback(struct utopia *utp, u_int mode) { int err; uint32_t val; u_int nmode; val = 0; nmode = mode; if (mode & UTP_LOOP_TIME) { nmode &= ~UTP_LOOP_TIME; val |= IDTPHY_REGM_MCTL_TLOOP; } if (mode & UTP_LOOP_DIAG) { nmode &= ~UTP_LOOP_DIAG; val |= IDTPHY_REGM_MCTL_DLOOP; } if (mode & UTP_LOOP_LINE) { nmode &= ~UTP_LOOP_LINE; val |= IDTPHY_REGM_MCTL_LLOOP; } if (nmode != 0) return (EINVAL); err = UTP_WRITEREG(utp, IDTPHY_REGO_MCTL, IDTPHY_REGM_MCTL_TLOOP | IDTPHY_REGM_MCTL_DLOOP | IDTPHY_REGM_MCTL_LLOOP, val); if (err) return (err); utp->loopback = mode; return (0); } /* * Set the chip to reflect the current state in utopia. * Assume, that the chip has been reset. */ static int idt77155_set_chip(struct utopia *utp) { int err = 0; /* set sonet/sdh */ err |= idt77155_set_sdh(utp, utp->state & UTP_ST_SDH); /* unassigned or idle cells */ err |= idt77155_set_unass(utp, utp->state & UTP_ST_UNASS); /* loopback */ err |= idt77155_set_loopback(utp, utp->loopback); /* update carrier state */ err |= idt77155_update_carrier(utp); /* enable interrupts on LOS */ err |= UTP_WRITEREG(utp, IDTPHY_REGO_INT, IDTPHY_REGM_INT_RXSOHI, IDTPHY_REGM_INT_RXSOHI); err |= UTP_WRITEREG(utp, IDTPHY_REGO_RSOC, IDTPHY_REGM_RSOC_LOSI, IDTPHY_REGM_RSOC_LOSI); return (err ? EIO : 0); } /* * Reset the chip to reflect the current state of utopia. */ static int idt77155_reset(struct utopia *utp) { int err = 0; if (!(utp->flags & UTP_FL_NORESET)) { err |= UTP_WRITEREG(utp, IDTPHY_REGO_MRID, IDTPHY_REGM_MRID_RESET, IDTPHY_REGM_MRID_RESET); err |= UTP_WRITEREG(utp, IDTPHY_REGO_MRID, IDTPHY_REGM_MRID_RESET, 0); } err |= idt77155_set_chip(utp); return (err ? EIO : 0); } /* * Update statistics from a IDT77155 * This appears to be the same as for the Suni/Lite and Ultra. IDT however * makes no assessment about the transfer time. Assume 7us. */ static void idt77155_update_stats(struct utopia *utp) { int err; /* write to the master if we can */ if (!(utp->flags & UTP_FL_NORESET)) { err = UTP_WRITEREG(utp, IDTPHY_REGO_MRID, 0, 0); } else { err = UTP_WRITEREG(utp, IDTPHY_REGO_BIPC, 0, 0); err |= UTP_WRITEREG(utp, IDTPHY_REGO_B2EC, 0, 0); err |= UTP_WRITEREG(utp, IDTPHY_REGO_B3EC, 0, 0); err |= UTP_WRITEREG(utp, IDTPHY_REGO_CEC, 0, 0); err |= UTP_WRITEREG(utp, IDTPHY_REGO_TXCNT, 0, 0); } if (err) { #ifdef DIAGNOSTIC printf("%s: register write error %s: %d\n", __func__, utp->chip->name, err); #endif return; } DELAY(8); utp->stats.rx_sbip += utopia_update(utp, IDTPHY_REGO_BIPC, 2, 0xffff); utp->stats.rx_lbip += utopia_update(utp, IDTPHY_REGO_B2EC, 3, 0xfffff); utp->stats.rx_lfebe += utopia_update(utp, IDTPHY_REGO_FEBEC, 3, 0xfffff); utp->stats.rx_pbip += utopia_update(utp, IDTPHY_REGO_B3EC, 2, 0xffff); utp->stats.rx_pfebe += utopia_update(utp, IDTPHY_REGO_PFEBEC, 2, 0xffff); utp->stats.rx_corr += utopia_update(utp, IDTPHY_REGO_CEC, 1, 0xff); utp->stats.rx_uncorr += utopia_update(utp, IDTPHY_REGO_UEC, 1, 0xff); utp->stats.rx_cells += utopia_update(utp, IDTPHY_REGO_RCCNT, 3, 0x7ffff); utp->stats.tx_cells += utopia_update(utp, IDTPHY_REGO_TXCNT, 3, 0x7ffff); } const struct utopia_chip utopia_chip_idt77155 = { UTP_TYPE_IDT77155, "IDT77155", 0x80, idt77155_reset, idt77155_set_sdh, idt77155_set_unass, idt77155_set_noscramb, idt77155_update_carrier, idt77155_set_loopback, idt77155_intr, idt77155_update_stats, };