octeon_asx.c revision 1.2
1 1.2 simonb /* $NetBSD: octeon_asx.c,v 1.2 2020/05/31 06:27:06 simonb Exp $ */ 2 1.1 hikaru 3 1.1 hikaru /* 4 1.1 hikaru * Copyright (c) 2007 Internet Initiative Japan, Inc. 5 1.1 hikaru * All rights reserved. 6 1.1 hikaru * 7 1.1 hikaru * Redistribution and use in source and binary forms, with or without 8 1.1 hikaru * modification, are permitted provided that the following conditions 9 1.1 hikaru * are met: 10 1.1 hikaru * 1. Redistributions of source code must retain the above copyright 11 1.1 hikaru * notice, this list of conditions and the following disclaimer. 12 1.1 hikaru * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 hikaru * notice, this list of conditions and the following disclaimer in the 14 1.1 hikaru * documentation and/or other materials provided with the distribution. 15 1.1 hikaru * 16 1.1 hikaru * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 17 1.1 hikaru * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 18 1.1 hikaru * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 19 1.1 hikaru * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 20 1.1 hikaru * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 21 1.1 hikaru * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 22 1.1 hikaru * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 23 1.1 hikaru * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 24 1.1 hikaru * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 25 1.1 hikaru * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 26 1.1 hikaru * SUCH DAMAGE. 27 1.1 hikaru */ 28 1.1 hikaru 29 1.1 hikaru #include <sys/cdefs.h> 30 1.2 simonb __KERNEL_RCSID(0, "$NetBSD: octeon_asx.c,v 1.2 2020/05/31 06:27:06 simonb Exp $"); 31 1.1 hikaru 32 1.1 hikaru #include "opt_octeon.h" 33 1.1 hikaru 34 1.1 hikaru #include <sys/param.h> 35 1.1 hikaru #include <sys/systm.h> 36 1.1 hikaru #include <sys/malloc.h> 37 1.1 hikaru #include <mips/cavium/octeonvar.h> 38 1.1 hikaru #include <mips/cavium/dev/octeon_asxreg.h> 39 1.1 hikaru #include <mips/cavium/dev/octeon_asxvar.h> 40 1.1 hikaru 41 1.2 simonb #ifdef CNMAC_DEBUG 42 1.2 simonb void octasx_intr_evcnt_attach(struct octasx_softc *); 43 1.2 simonb void octasx_intr_rml(void *); 44 1.1 hikaru #endif 45 1.1 hikaru 46 1.2 simonb #ifdef CNMAC_DEBUG 47 1.2 simonb struct octasx_softc *__octasx_softc; 48 1.1 hikaru #endif 49 1.1 hikaru 50 1.1 hikaru /* XXX */ 51 1.1 hikaru void 52 1.2 simonb octasx_init(struct octasx_attach_args *aa, struct octasx_softc **rsc) 53 1.1 hikaru { 54 1.2 simonb struct octasx_softc *sc; 55 1.1 hikaru int status; 56 1.1 hikaru 57 1.1 hikaru sc = malloc(sizeof(*sc), M_DEVBUF, M_WAITOK | M_ZERO); 58 1.1 hikaru if (sc == NULL) 59 1.1 hikaru panic("can't allocate memory: %s", __func__); 60 1.1 hikaru 61 1.1 hikaru sc->sc_port = aa->aa_port; 62 1.1 hikaru sc->sc_regt = aa->aa_regt; 63 1.1 hikaru 64 1.1 hikaru status = bus_space_map(sc->sc_regt, ASX0_BASE, ASX0_SIZE, 0, 65 1.1 hikaru &sc->sc_regh); 66 1.1 hikaru if (status != 0) 67 1.1 hikaru panic("can't map %s space", "asx register"); 68 1.1 hikaru 69 1.1 hikaru *rsc = sc; 70 1.1 hikaru 71 1.2 simonb #ifdef CNMAC_DEBUG 72 1.2 simonb octasx_intr_evcnt_attach(sc); 73 1.2 simonb if (__octasx_softc == NULL) 74 1.2 simonb __octasx_softc = sc; 75 1.1 hikaru #endif 76 1.1 hikaru } 77 1.1 hikaru 78 1.1 hikaru #define _ASX_RD8(sc, off) \ 79 1.1 hikaru bus_space_read_8((sc)->sc_regt, (sc)->sc_regh, (off)) 80 1.1 hikaru #define _ASX_WR8(sc, off, v) \ 81 1.1 hikaru bus_space_write_8((sc)->sc_regt, (sc)->sc_regh, (off), (v)) 82 1.1 hikaru 83 1.2 simonb static int octasx_enable_tx(struct octasx_softc *, int); 84 1.2 simonb static int octasx_enable_rx(struct octasx_softc *, int); 85 1.2 simonb #ifdef CNMAC_DEBUG 86 1.2 simonb static int octasx_enable_intr(struct octasx_softc *, int); 87 1.1 hikaru #endif 88 1.1 hikaru 89 1.1 hikaru int 90 1.2 simonb octasx_enable(struct octasx_softc *sc, int enable) 91 1.1 hikaru { 92 1.1 hikaru 93 1.2 simonb #ifdef CNMAC_DEBUG 94 1.2 simonb octasx_enable_intr(sc, enable); 95 1.1 hikaru #endif 96 1.2 simonb octasx_enable_tx(sc, enable); 97 1.2 simonb octasx_enable_rx(sc, enable); 98 1.1 hikaru return 0; 99 1.1 hikaru } 100 1.1 hikaru 101 1.1 hikaru static int 102 1.2 simonb octasx_enable_tx(struct octasx_softc *sc, int enable) 103 1.1 hikaru { 104 1.1 hikaru uint64_t asx_tx_port; 105 1.1 hikaru 106 1.1 hikaru asx_tx_port = _ASX_RD8(sc, ASX0_TX_PRT_EN_OFFSET); 107 1.1 hikaru if (enable) 108 1.1 hikaru SET(asx_tx_port, 1 << sc->sc_port); 109 1.1 hikaru else 110 1.1 hikaru CLR(asx_tx_port, 1 << sc->sc_port); 111 1.1 hikaru _ASX_WR8(sc, ASX0_TX_PRT_EN_OFFSET, asx_tx_port); 112 1.1 hikaru return 0; 113 1.1 hikaru } 114 1.1 hikaru 115 1.1 hikaru static int 116 1.2 simonb octasx_enable_rx(struct octasx_softc *sc, int enable) 117 1.1 hikaru { 118 1.1 hikaru uint64_t asx_rx_port; 119 1.1 hikaru 120 1.1 hikaru asx_rx_port = _ASX_RD8(sc, ASX0_RX_PRT_EN_OFFSET); 121 1.1 hikaru if (enable) 122 1.1 hikaru SET(asx_rx_port, 1 << sc->sc_port); 123 1.1 hikaru else 124 1.1 hikaru CLR(asx_rx_port, 1 << sc->sc_port); 125 1.1 hikaru _ASX_WR8(sc, ASX0_RX_PRT_EN_OFFSET, asx_rx_port); 126 1.1 hikaru return 0; 127 1.1 hikaru } 128 1.1 hikaru 129 1.2 simonb #if defined(CNMAC_DEBUG) 130 1.2 simonb int octasx_intr_rml_verbose; 131 1.1 hikaru 132 1.2 simonb static const struct octeon_evcnt_entry octasx_intr_evcnt_entries[] = { 133 1.1 hikaru #define _ENTRY(name, type, parent, descr) \ 134 1.2 simonb OCTEON_EVCNT_ENTRY(struct octasx_softc, name, type, parent, descr) 135 1.1 hikaru _ENTRY(asxrxpsh, MISC, NULL, "asx tx fifo overflow"), 136 1.1 hikaru _ENTRY(asxtxpop, MISC, NULL, "asx tx fifo underflow"), 137 1.1 hikaru _ENTRY(asxovrflw, MISC, NULL, "asx rx fifo overflow"), 138 1.1 hikaru #undef _ENTRY 139 1.1 hikaru }; 140 1.1 hikaru 141 1.1 hikaru void 142 1.2 simonb octasx_intr_evcnt_attach(struct octasx_softc *sc) 143 1.1 hikaru { 144 1.2 simonb OCTEON_EVCNT_ATTACH_EVCNTS(sc, octasx_intr_evcnt_entries, "asx0"); 145 1.1 hikaru } 146 1.1 hikaru 147 1.1 hikaru void 148 1.2 simonb octasx_intr_rml(void *arg) 149 1.1 hikaru { 150 1.2 simonb struct octasx_softc *sc = __octasx_softc; 151 1.1 hikaru uint64_t reg = 0; 152 1.1 hikaru 153 1.2 simonb reg = octasx_int_summary(sc); 154 1.2 simonb if (octasx_intr_rml_verbose) 155 1.1 hikaru printf("%s: ASX_INT_REG=0x%016" PRIx64 "\n", __func__, reg); 156 1.1 hikaru if (reg & ASX0_INT_REG_TXPSH) 157 1.1 hikaru OCTEON_EVCNT_INC(sc, asxrxpsh); 158 1.1 hikaru if (reg & ASX0_INT_REG_TXPOP) 159 1.1 hikaru OCTEON_EVCNT_INC(sc, asxtxpop); 160 1.1 hikaru if (reg & ASX0_INT_REG_OVRFLW) 161 1.1 hikaru OCTEON_EVCNT_INC(sc, asxovrflw); 162 1.1 hikaru } 163 1.1 hikaru 164 1.1 hikaru static int 165 1.2 simonb octasx_enable_intr(struct octasx_softc *sc, int enable) 166 1.1 hikaru { 167 1.1 hikaru uint64_t asx_int_xxx = 0; 168 1.1 hikaru 169 1.1 hikaru SET(asx_int_xxx, 170 1.1 hikaru ASX0_INT_REG_TXPSH | 171 1.1 hikaru ASX0_INT_REG_TXPOP | 172 1.1 hikaru ASX0_INT_REG_OVRFLW); 173 1.1 hikaru _ASX_WR8(sc, ASX0_INT_REG_OFFSET, asx_int_xxx); 174 1.1 hikaru _ASX_WR8(sc, ASX0_INT_EN_OFFSET, enable ? asx_int_xxx : 0); 175 1.1 hikaru return 0; 176 1.1 hikaru } 177 1.1 hikaru #endif 178 1.1 hikaru 179 1.1 hikaru int 180 1.2 simonb octasx_clk_set(struct octasx_softc *sc, int tx_setting, int rx_setting) 181 1.1 hikaru { 182 1.1 hikaru _ASX_WR8(sc, ASX0_TX_CLK_SET0_OFFSET + 8 * sc->sc_port, tx_setting); 183 1.1 hikaru _ASX_WR8(sc, ASX0_RX_CLK_SET0_OFFSET + 8 * sc->sc_port, rx_setting); 184 1.1 hikaru return 0; 185 1.1 hikaru } 186 1.1 hikaru 187 1.2 simonb #ifdef CNMAC_DEBUG 188 1.1 hikaru uint64_t 189 1.2 simonb octasx_int_summary(struct octasx_softc *sc) 190 1.1 hikaru { 191 1.1 hikaru uint64_t summary; 192 1.1 hikaru 193 1.1 hikaru summary = _ASX_RD8(sc, ASX0_INT_REG_OFFSET); 194 1.1 hikaru _ASX_WR8(sc, ASX0_INT_REG_OFFSET, summary); 195 1.1 hikaru return summary; 196 1.1 hikaru } 197 1.1 hikaru 198 1.1 hikaru #define _ENTRY(x) { #x, x##_BITS, x##_OFFSET } 199 1.1 hikaru 200 1.2 simonb struct octasx_dump_reg_ { 201 1.1 hikaru const char *name; 202 1.1 hikaru const char *format; 203 1.1 hikaru size_t offset; 204 1.1 hikaru }; 205 1.1 hikaru 206 1.2 simonb void octasx_dump(void); 207 1.1 hikaru 208 1.2 simonb static const struct octasx_dump_reg_ octasx_dump_regs_[] = { 209 1.1 hikaru _ENTRY(ASX0_RX_PRT_EN), 210 1.1 hikaru _ENTRY(ASX0_TX_PRT_EN), 211 1.1 hikaru _ENTRY(ASX0_INT_REG), 212 1.1 hikaru _ENTRY(ASX0_INT_EN), 213 1.1 hikaru _ENTRY(ASX0_RX_CLK_SET0), 214 1.1 hikaru _ENTRY(ASX0_RX_CLK_SET1), 215 1.1 hikaru _ENTRY(ASX0_RX_CLK_SET2), 216 1.1 hikaru _ENTRY(ASX0_PRT_LOOP), 217 1.1 hikaru _ENTRY(ASX0_TX_CLK_SET0), 218 1.1 hikaru _ENTRY(ASX0_TX_CLK_SET1), 219 1.1 hikaru _ENTRY(ASX0_TX_CLK_SET2), 220 1.1 hikaru _ENTRY(ASX0_COMP_BYP), 221 1.1 hikaru _ENTRY(ASX0_TX_HI_WATER000), 222 1.1 hikaru _ENTRY(ASX0_TX_HI_WATER001), 223 1.1 hikaru _ENTRY(ASX0_TX_HI_WATER002), 224 1.1 hikaru _ENTRY(ASX0_GMII_RX_CLK_SET), 225 1.1 hikaru _ENTRY(ASX0_GMII_RX_DAT_SET), 226 1.1 hikaru _ENTRY(ASX0_MII_RX_DAT_SET), 227 1.1 hikaru }; 228 1.1 hikaru 229 1.1 hikaru void 230 1.2 simonb octasx_dump(void) 231 1.1 hikaru { 232 1.2 simonb struct octasx_softc *sc = __octasx_softc; 233 1.2 simonb const struct octasx_dump_reg_ *reg; 234 1.1 hikaru uint64_t tmp; 235 1.1 hikaru char buf[512]; 236 1.1 hikaru int i; 237 1.1 hikaru 238 1.2 simonb for (i = 0; i < (int)__arraycount(octasx_dump_regs_); i++) { 239 1.2 simonb reg = &octasx_dump_regs_[i]; 240 1.1 hikaru tmp = _ASX_RD8(sc, reg->offset); 241 1.1 hikaru if (reg->format == NULL) 242 1.1 hikaru snprintf(buf, sizeof(buf), "%016" PRIx64, tmp); 243 1.1 hikaru else 244 1.1 hikaru snprintb(buf, sizeof(buf), reg->format, tmp); 245 1.1 hikaru printf("\t%-24s: %s\n", reg->name, buf); 246 1.1 hikaru } 247 1.1 hikaru } 248 1.1 hikaru #endif 249
Indexes created Thu Sep 25 15:09:46 GMT 2025