zynq_uart.c revision 1.1
1 1.1 skrll /* $NetBSD: zynq_uart.c,v 1.1 2019/06/11 13:01:48 skrll Exp $ */ 2 1.1 skrll 3 1.1 skrll /* 4 1.1 skrll * Copyright (c) 2012 Genetec Corporation. All rights reserved. 5 1.1 skrll * Written by Hiroyuki Bessho, Hashimoto Kenichi for Genetec Corporation. 6 1.1 skrll * 7 1.1 skrll * Redistribution and use in source and binary forms, with or without 8 1.1 skrll * modification, are permitted provided that the following conditions 9 1.1 skrll * are met: 10 1.1 skrll * 1. Redistributions of source code must retain the above copyright 11 1.1 skrll * notice, this list of conditions and the following disclaimer. 12 1.1 skrll * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 skrll * notice, this list of conditions and the following disclaimer in the 14 1.1 skrll * documentation and/or other materials provided with the distribution. 15 1.1 skrll * 16 1.1 skrll * THIS SOFTWARE IS PROVIDED BY GENETEC CORPORATION ``AS IS'' AND 17 1.1 skrll * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 18 1.1 skrll * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 19 1.1 skrll * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL GENETEC CORPORATION 20 1.1 skrll * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 21 1.1 skrll * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 22 1.1 skrll * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 23 1.1 skrll * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 24 1.1 skrll * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 25 1.1 skrll * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 26 1.1 skrll * POSSIBILITY OF SUCH DAMAGE. 27 1.1 skrll * 28 1.1 skrll */ 29 1.1 skrll 30 1.1 skrll /* 31 1.1 skrll * derived from sys/dev/ic/com.c 32 1.1 skrll */ 33 1.1 skrll 34 1.1 skrll /*- 35 1.1 skrll * Copyright (c) 1998, 1999, 2004, 2008 The NetBSD Foundation, Inc. 36 1.1 skrll * All rights reserved. 37 1.1 skrll * 38 1.1 skrll * This code is derived from software contributed to The NetBSD Foundation 39 1.1 skrll * by Charles M. Hannum. 40 1.1 skrll * 41 1.1 skrll * Redistribution and use in source and binary forms, with or without 42 1.1 skrll * modification, are permitted provided that the following conditions 43 1.1 skrll * are met: 44 1.1 skrll * 1. Redistributions of source code must retain the above copyright 45 1.1 skrll * notice, this list of conditions and the following disclaimer. 46 1.1 skrll * 2. Redistributions in binary form must reproduce the above copyright 47 1.1 skrll * notice, this list of conditions and the following disclaimer in the 48 1.1 skrll * documentation and/or other materials provided with the distribution. 49 1.1 skrll * 50 1.1 skrll * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 51 1.1 skrll * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 52 1.1 skrll * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 53 1.1 skrll * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 54 1.1 skrll * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 55 1.1 skrll * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 56 1.1 skrll * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 57 1.1 skrll * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 58 1.1 skrll * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 59 1.1 skrll * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 60 1.1 skrll * POSSIBILITY OF SUCH DAMAGE. 61 1.1 skrll */ 62 1.1 skrll 63 1.1 skrll /* 64 1.1 skrll * Copyright (c) 1991 The Regents of the University of California. 65 1.1 skrll * All rights reserved. 66 1.1 skrll * 67 1.1 skrll * Redistribution and use in source and binary forms, with or without 68 1.1 skrll * modification, are permitted provided that the following conditions 69 1.1 skrll * are met: 70 1.1 skrll * 1. Redistributions of source code must retain the above copyright 71 1.1 skrll * notice, this list of conditions and the following disclaimer. 72 1.1 skrll * 2. Redistributions in binary form must reproduce the above copyright 73 1.1 skrll * notice, this list of conditions and the following disclaimer in the 74 1.1 skrll * documentation and/or other materials provided with the distribution. 75 1.1 skrll * 3. Neither the name of the University nor the names of its contributors 76 1.1 skrll * may be used to endorse or promote products derived from this software 77 1.1 skrll * without specific prior written permission. 78 1.1 skrll * 79 1.1 skrll * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 80 1.1 skrll * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 81 1.1 skrll * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 82 1.1 skrll * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 83 1.1 skrll * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 84 1.1 skrll * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 85 1.1 skrll * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 86 1.1 skrll * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 87 1.1 skrll * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 88 1.1 skrll * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 89 1.1 skrll * SUCH DAMAGE. 90 1.1 skrll * 91 1.1 skrll * @(#)com.c 7.5 (Berkeley) 5/16/91 92 1.1 skrll */ 93 1.1 skrll 94 1.1 skrll /* 95 1.1 skrll * driver for UART in Zynq-7000. 96 1.1 skrll */ 97 1.1 skrll 98 1.1 skrll #include <sys/cdefs.h> 99 1.1 skrll __KERNEL_RCSID(0, "$NetBSD: zynq_uart.c,v 1.1 2019/06/11 13:01:48 skrll Exp $"); 100 1.1 skrll 101 1.1 skrll #include "opt_soc.h" 102 1.1 skrll #include "opt_console.h" 103 1.1 skrll #include "opt_com.h" 104 1.1 skrll #include "opt_ddb.h" 105 1.1 skrll #include "opt_kgdb.h" 106 1.1 skrll #include "opt_ntp.h" 107 1.1 skrll 108 1.1 skrll /* 109 1.1 skrll * Override cnmagic(9) macro before including <sys/systm.h>. 110 1.1 skrll * We need to know if cn_check_magic triggered debugger, so set a flag. 111 1.1 skrll * Callers of cn_check_magic must declare int cn_trapped = 0; 112 1.1 skrll * XXX: this is *ugly*! 113 1.1 skrll */ 114 1.1 skrll #define cn_trap() \ 115 1.1 skrll do { \ 116 1.1 skrll console_debugger(); \ 117 1.1 skrll cn_trapped = 1; \ 118 1.1 skrll } while (/* CONSTCOND */ 0) 119 1.1 skrll 120 1.1 skrll #include <sys/param.h> 121 1.1 skrll 122 1.1 skrll #include <sys/bus.h> 123 1.1 skrll #include <sys/conf.h> 124 1.1 skrll #include <dev/cons.h> 125 1.1 skrll #include <sys/device.h> 126 1.1 skrll #include <sys/file.h> 127 1.1 skrll #include <sys/kauth.h> 128 1.1 skrll #include <sys/kernel.h> 129 1.1 skrll #include <sys/malloc.h> 130 1.1 skrll #include <sys/poll.h> 131 1.1 skrll #include <sys/proc.h> 132 1.1 skrll #include <sys/systm.h> 133 1.1 skrll #include <sys/tty.h> 134 1.1 skrll 135 1.1 skrll #ifdef RND_COM 136 1.1 skrll #include <sys/rndsource.h> 137 1.1 skrll #endif 138 1.1 skrll 139 1.1 skrll #include <arm/xilinx/zynq_uartreg.h> 140 1.1 skrll #include <arm/xilinx/zynq_uartvar.h> 141 1.1 skrll 142 1.1 skrll #ifndef ZYNQUART_RING_SIZE 143 1.1 skrll #define ZYNQUART_RING_SIZE 2048 144 1.1 skrll #endif 145 1.1 skrll 146 1.1 skrll #define UART_SIZE 0x00000048 147 1.1 skrll 148 1.1 skrll typedef struct zynquart_softc { 149 1.1 skrll device_t sc_dev; 150 1.1 skrll 151 1.1 skrll struct zynquart_regs { 152 1.1 skrll bus_space_tag_t ur_iot; 153 1.1 skrll bus_space_handle_t ur_ioh; 154 1.1 skrll bus_addr_t ur_iobase; 155 1.1 skrll } sc_regs; 156 1.1 skrll 157 1.1 skrll #define sc_bt sc_regs.ur_iot 158 1.1 skrll #define sc_bh sc_regs.ur_ioh 159 1.1 skrll 160 1.1 skrll uint32_t sc_intrspec_enb; 161 1.1 skrll uint32_t sc_cr; 162 1.1 skrll uint32_t sc_mcr; 163 1.1 skrll uint32_t sc_msr; 164 1.1 skrll 165 1.1 skrll uint sc_init_cnt; 166 1.1 skrll 167 1.1 skrll bus_addr_t sc_addr; 168 1.1 skrll bus_size_t sc_size; 169 1.1 skrll 170 1.1 skrll u_char sc_hwflags; 171 1.1 skrll /* Hardware flag masks */ 172 1.1 skrll #define ZYNQUART_HW_FLOW __BIT(0) 173 1.1 skrll #define ZYNQUART_HW_DEV_OK __BIT(1) 174 1.1 skrll #define ZYNQUART_HW_CONSOLE __BIT(2) 175 1.1 skrll #define ZYNQUART_HW_KGDB __BIT(3) 176 1.1 skrll 177 1.1 skrll bool enabled; 178 1.1 skrll 179 1.1 skrll u_char sc_swflags; 180 1.1 skrll 181 1.1 skrll u_char sc_rx_flags; 182 1.1 skrll #define ZYNQUART_RX_TTY_BLOCKED __BIT(0) 183 1.1 skrll #define ZYNQUART_RX_TTY_OVERFLOWED __BIT(1) 184 1.1 skrll #define ZYNQUART_RX_IBUF_BLOCKED __BIT(2) 185 1.1 skrll #define ZYNQUART_RX_IBUF_OVERFLOWED __BIT(3) 186 1.1 skrll #define ZYNQUART_RX_ANY_BLOCK \ 187 1.1 skrll (ZYNQUART_RX_TTY_BLOCKED|ZYNQUART_RX_TTY_OVERFLOWED| \ 188 1.1 skrll ZYNQUART_RX_IBUF_BLOCKED|ZYNQUART_RX_IBUF_OVERFLOWED) 189 1.1 skrll 190 1.1 skrll bool sc_tx_busy, sc_tx_done, sc_tx_stopped; 191 1.1 skrll bool sc_rx_ready,sc_st_check; 192 1.1 skrll u_short sc_txfifo_len, sc_txfifo_thresh; 193 1.1 skrll 194 1.1 skrll uint16_t *sc_rbuf; 195 1.1 skrll u_int sc_rbuf_size; 196 1.1 skrll u_int sc_rbuf_in; 197 1.1 skrll u_int sc_rbuf_out; 198 1.1 skrll #define ZYNQUART_RBUF_AVAIL(sc) \ 199 1.1 skrll ((sc->sc_rbuf_out <= sc->sc_rbuf_in) ? \ 200 1.1 skrll (sc->sc_rbuf_in - sc->sc_rbuf_out) : \ 201 1.1 skrll (sc->sc_rbuf_size - (sc->sc_rbuf_out - sc->sc_rbuf_in))) 202 1.1 skrll 203 1.1 skrll #define ZYNQUART_RBUF_SPACE(sc) \ 204 1.1 skrll ((sc->sc_rbuf_in <= sc->sc_rbuf_out ? \ 205 1.1 skrll sc->sc_rbuf_size - (sc->sc_rbuf_out - sc->sc_rbuf_in) : \ 206 1.1 skrll sc->sc_rbuf_in - sc->sc_rbuf_out) - 1) 207 1.1 skrll /* increment ringbuffer pointer */ 208 1.1 skrll #define ZYNQUART_RBUF_INC(sc,v,i) (((v) + (i))&((sc->sc_rbuf_size)-1)) 209 1.1 skrll u_int sc_r_lowat; 210 1.1 skrll u_int sc_r_hiwat; 211 1.1 skrll 212 1.1 skrll /* output chunk */ 213 1.1 skrll u_char *sc_tba; 214 1.1 skrll u_int sc_tbc; 215 1.1 skrll u_int sc_heldtbc; 216 1.1 skrll /* pending parameter changes */ 217 1.1 skrll u_char sc_pending; 218 1.1 skrll #define ZYNQUART_PEND_PARAM __BIT(0) 219 1.1 skrll #define ZYNQUART_PEND_SPEED __BIT(1) 220 1.1 skrll 221 1.1 skrll 222 1.1 skrll struct callout sc_diag_callout; 223 1.1 skrll kmutex_t sc_lock; 224 1.1 skrll void *sc_ih; /* interrupt handler */ 225 1.1 skrll void *sc_si; /* soft interrupt */ 226 1.1 skrll struct tty *sc_tty; 227 1.1 skrll 228 1.1 skrll /* power management hooks */ 229 1.1 skrll int (*enable)(struct zynquart_softc *); 230 1.1 skrll void (*disable)(struct zynquart_softc *); 231 1.1 skrll 232 1.1 skrll struct { 233 1.1 skrll ulong err; 234 1.1 skrll ulong brk; 235 1.1 skrll ulong prerr; 236 1.1 skrll ulong frmerr; 237 1.1 skrll ulong ovrrun; 238 1.1 skrll } sc_errors; 239 1.1 skrll 240 1.1 skrll struct zynquart_baudrate_ratio { 241 1.1 skrll uint16_t numerator; /* UBIR */ 242 1.1 skrll uint16_t modulator; /* UBMR */ 243 1.1 skrll } sc_ratio; 244 1.1 skrll 245 1.1 skrll } zynquart_softc_t; 246 1.1 skrll 247 1.1 skrll 248 1.1 skrll int zynquartspeed(long, struct zynquart_baudrate_ratio *); 249 1.1 skrll int zynquartparam(struct tty *, struct termios *); 250 1.1 skrll void zynquartstart(struct tty *); 251 1.1 skrll int zynquarthwiflow(struct tty *, int); 252 1.1 skrll 253 1.1 skrll void zynquart_shutdown(struct zynquart_softc *); 254 1.1 skrll void zynquart_loadchannelregs(struct zynquart_softc *); 255 1.1 skrll void zynquart_hwiflow(struct zynquart_softc *); 256 1.1 skrll void zynquart_break(struct zynquart_softc *, bool); 257 1.1 skrll void zynquart_modem(struct zynquart_softc *, int); 258 1.1 skrll void tiocm_to_zynquart(struct zynquart_softc *, u_long, int); 259 1.1 skrll int zynquart_to_tiocm(struct zynquart_softc *); 260 1.1 skrll void zynquart_iflush(struct zynquart_softc *); 261 1.1 skrll 262 1.1 skrll int zynquart_common_getc(dev_t, struct zynquart_regs *); 263 1.1 skrll void zynquart_common_putc(dev_t, struct zynquart_regs *, int); 264 1.1 skrll 265 1.1 skrll 266 1.1 skrll int zynquart_init(struct zynquart_regs *, int, tcflag_t); 267 1.1 skrll 268 1.1 skrll int zynquartcngetc(dev_t); 269 1.1 skrll void zynquartcnputc(dev_t, int); 270 1.1 skrll 271 1.1 skrll static void zynquartintr_read(struct zynquart_softc *); 272 1.1 skrll static void zynquartintr_send(struct zynquart_softc *); 273 1.1 skrll 274 1.1 skrll static void zynquart_enable_debugport(struct zynquart_softc *); 275 1.1 skrll static void zynquart_disable_all_interrupts(struct zynquart_softc *); 276 1.1 skrll static void zynquart_control_rxint(struct zynquart_softc *, bool); 277 1.1 skrll static void zynquart_control_txint(struct zynquart_softc *, bool); 278 1.1 skrll 279 1.1 skrll static uint32_t cflag_to_zynquart(tcflag_t, uint32_t); 280 1.1 skrll 281 1.1 skrll #define integrate static inline 282 1.1 skrll void zynquartsoft(void *); 283 1.1 skrll integrate void zynquart_rxsoft(struct zynquart_softc *, struct tty *); 284 1.1 skrll integrate void zynquart_txsoft(struct zynquart_softc *, struct tty *); 285 1.1 skrll integrate void zynquart_stsoft(struct zynquart_softc *, struct tty *); 286 1.1 skrll integrate void zynquart_schedrx(struct zynquart_softc *); 287 1.1 skrll void zynquartdiag(void *); 288 1.1 skrll static void zynquart_load_speed(struct zynquart_softc *); 289 1.1 skrll static void zynquart_load_params(struct zynquart_softc *); 290 1.1 skrll integrate void zynquart_load_pendings(struct zynquart_softc *); 291 1.1 skrll 292 1.1 skrll 293 1.1 skrll extern struct cfdriver zynquart_cd; 294 1.1 skrll 295 1.1 skrll dev_type_open(zynquartopen); 296 1.1 skrll dev_type_close(zynquartclose); 297 1.1 skrll dev_type_read(zynquartread); 298 1.1 skrll dev_type_write(zynquartwrite); 299 1.1 skrll dev_type_ioctl(zynquartioctl); 300 1.1 skrll dev_type_stop(zynquartstop); 301 1.1 skrll dev_type_tty(zynquarttty); 302 1.1 skrll dev_type_poll(zynquartpoll); 303 1.1 skrll 304 1.1 skrll const struct cdevsw zynquart_cdevsw = { 305 1.1 skrll .d_open = zynquartopen, 306 1.1 skrll .d_close = zynquartclose, 307 1.1 skrll .d_read = zynquartread, 308 1.1 skrll .d_write = zynquartwrite, 309 1.1 skrll .d_ioctl = zynquartioctl, 310 1.1 skrll .d_stop = zynquartstop, 311 1.1 skrll .d_tty = zynquarttty, 312 1.1 skrll .d_poll = zynquartpoll, 313 1.1 skrll .d_mmap = nommap, 314 1.1 skrll .d_kqfilter = ttykqfilter, 315 1.1 skrll .d_discard = nodiscard, 316 1.1 skrll .d_flag = D_TTY 317 1.1 skrll }; 318 1.1 skrll 319 1.1 skrll /* 320 1.1 skrll * Make this an option variable one can patch. 321 1.1 skrll * But be warned: this must be a power of 2! 322 1.1 skrll */ 323 1.1 skrll u_int zynquart_rbuf_size = ZYNQUART_RING_SIZE; 324 1.1 skrll 325 1.1 skrll /* Stop input when 3/4 of the ring is full; restart when only 1/4 is full. */ 326 1.1 skrll u_int zynquart_rbuf_hiwat = (ZYNQUART_RING_SIZE * 1) / 4; 327 1.1 skrll u_int zynquart_rbuf_lowat = (ZYNQUART_RING_SIZE * 3) / 4; 328 1.1 skrll 329 1.1 skrll static struct zynquart_regs zynquartconsregs; 330 1.1 skrll static int zynquartconsattached; 331 1.1 skrll static int zynquartconsrate; 332 1.1 skrll static tcflag_t zynquartconscflag; 333 1.1 skrll static struct cnm_state zynquart_cnm_state; 334 1.1 skrll 335 1.1 skrll u_int zynquart_freq; 336 1.1 skrll u_int zynquart_freqdiv; 337 1.1 skrll 338 1.1 skrll #ifdef KGDB 339 1.1 skrll #include <sys/kgdb.h> 340 1.1 skrll 341 1.1 skrll static struct zynquart_regs zynquart_kgdb_regs; 342 1.1 skrll static int zynquart_kgdb_attached; 343 1.1 skrll 344 1.1 skrll int zynquart_kgdb_getc(void *); 345 1.1 skrll void zynquart_kgdb_putc(void *, int); 346 1.1 skrll #endif /* KGDB */ 347 1.1 skrll 348 1.1 skrll #define ZYNQUART_UNIT_MASK 0x7ffff 349 1.1 skrll #define ZYNQUART_DIALOUT_MASK 0x80000 350 1.1 skrll 351 1.1 skrll #define ZYNQUART_UNIT(x) (minor(x) & ZYNQUART_UNIT_MASK) 352 1.1 skrll #define ZYNQUART_DIALOUT(x) (minor(x) & ZYNQUART_DIALOUT_MASK) 353 1.1 skrll 354 1.1 skrll #define ZYNQUART_ISALIVE(sc) ((sc)->enabled != 0 && \ 355 1.1 skrll device_is_active((sc)->sc_dev)) 356 1.1 skrll 357 1.1 skrll #define BR BUS_SPACE_BARRIER_READ 358 1.1 skrll #define BW BUS_SPACE_BARRIER_WRITE 359 1.1 skrll #define ZYNQUART_BARRIER(r, f) \ 360 1.1 skrll bus_space_barrier((r)->ur_iot, (r)->ur_ioh, 0, UART_SIZE, (f)) 361 1.1 skrll 362 1.1 skrll CFATTACH_DECL_NEW(zynquart, sizeof(struct zynquart_softc), 363 1.1 skrll zynquart_match, zynquart_attach, NULL, NULL); 364 1.1 skrll 365 1.1 skrll void 366 1.1 skrll zynquart_attach_common(device_t parent, device_t self, 367 1.1 skrll bus_space_tag_t iot, paddr_t iobase, size_t size, int flags) 368 1.1 skrll { 369 1.1 skrll zynquart_softc_t *sc = device_private(self); 370 1.1 skrll struct zynquart_regs *regsp = &sc->sc_regs; 371 1.1 skrll struct tty *tp; 372 1.1 skrll bus_space_handle_t ioh; 373 1.1 skrll 374 1.1 skrll aprint_naive("\n"); 375 1.1 skrll aprint_normal("\n"); 376 1.1 skrll 377 1.1 skrll sc->sc_dev = self; 378 1.1 skrll 379 1.1 skrll if (size <= 0) 380 1.1 skrll size = UART_SIZE; 381 1.1 skrll 382 1.1 skrll regsp->ur_iot = iot; 383 1.1 skrll regsp->ur_iobase = iobase; 384 1.1 skrll 385 1.1 skrll if (bus_space_map(iot, regsp->ur_iobase, size, 0, &ioh)) { 386 1.1 skrll return; 387 1.1 skrll } 388 1.1 skrll regsp->ur_ioh = ioh; 389 1.1 skrll 390 1.1 skrll callout_init(&sc->sc_diag_callout, 0); 391 1.1 skrll mutex_init(&sc->sc_lock, MUTEX_DEFAULT, IPL_HIGH); 392 1.1 skrll 393 1.1 skrll sc->sc_cr = bus_space_read_4(iot, ioh, UART_CONTROL); 394 1.1 skrll sc->sc_cr |= CR_TXEN | CR_RXEN; 395 1.1 skrll sc->sc_cr &= ~(CR_TXDIS | CR_RXDIS); 396 1.1 skrll bus_space_write_4(iot, ioh, UART_CONTROL, sc->sc_cr); 397 1.1 skrll 398 1.1 skrll /* Disable interrupts before configuring the device. */ 399 1.1 skrll zynquart_disable_all_interrupts(sc); 400 1.1 skrll 401 1.1 skrll if (regsp->ur_iobase == zynquartconsregs.ur_iobase) { 402 1.1 skrll zynquartconsattached = 1; 403 1.1 skrll 404 1.1 skrll /* Make sure the console is always "hardwired". */ 405 1.1 skrll SET(sc->sc_hwflags, ZYNQUART_HW_CONSOLE); 406 1.1 skrll SET(sc->sc_swflags, TIOCFLAG_SOFTCAR); 407 1.1 skrll } 408 1.1 skrll 409 1.1 skrll tp = tty_alloc(); 410 1.1 skrll tp->t_oproc = zynquartstart; 411 1.1 skrll tp->t_param = zynquartparam; 412 1.1 skrll tp->t_hwiflow = zynquarthwiflow; 413 1.1 skrll 414 1.1 skrll sc->sc_tty = tp; 415 1.1 skrll sc->sc_rbuf = malloc(sizeof (*sc->sc_rbuf) * zynquart_rbuf_size, 416 1.1 skrll M_DEVBUF, M_NOWAIT); 417 1.1 skrll sc->sc_rbuf_size = zynquart_rbuf_size; 418 1.1 skrll sc->sc_rbuf_in = sc->sc_rbuf_out = 0; 419 1.1 skrll if (sc->sc_rbuf == NULL) { 420 1.1 skrll aprint_error_dev(sc->sc_dev, 421 1.1 skrll "unable to allocate ring buffer\n"); 422 1.1 skrll return; 423 1.1 skrll } 424 1.1 skrll 425 1.1 skrll sc->sc_txfifo_len = 64; 426 1.1 skrll sc->sc_txfifo_thresh = 32; 427 1.1 skrll 428 1.1 skrll tty_attach(tp); 429 1.1 skrll 430 1.1 skrll if (ISSET(sc->sc_hwflags, ZYNQUART_HW_CONSOLE)) { 431 1.1 skrll int maj; 432 1.1 skrll 433 1.1 skrll /* locate the major number */ 434 1.1 skrll maj = cdevsw_lookup_major(&zynquart_cdevsw); 435 1.1 skrll 436 1.1 skrll if (maj != NODEVMAJOR) { 437 1.1 skrll tp->t_dev = cn_tab->cn_dev = makedev(maj, 438 1.1 skrll device_unit(sc->sc_dev)); 439 1.1 skrll 440 1.1 skrll aprint_normal_dev(sc->sc_dev, "console\n"); 441 1.1 skrll } 442 1.1 skrll } 443 1.1 skrll 444 1.1 skrll /* reset receive time out */ 445 1.1 skrll bus_space_write_4(iot, ioh, UART_RCVR_TIMEOUT, 0); 446 1.1 skrll bus_space_write_4(iot, ioh, UART_RCVR_FIFO_TRIGGER, 1); 447 1.1 skrll 448 1.1 skrll #ifdef KGDB 449 1.1 skrll /* 450 1.1 skrll * Allow kgdb to "take over" this port. If this is 451 1.1 skrll * not the console and is the kgdb device, it has 452 1.1 skrll * exclusive use. If it's the console _and_ the 453 1.1 skrll * kgdb device, it doesn't. 454 1.1 skrll */ 455 1.1 skrll if (regsp->ur_iobase == zynquart_kgdb_regs.ur_iobase) { 456 1.1 skrll if (!ISSET(sc->sc_hwflags, ZYNQUART_HW_CONSOLE)) { 457 1.1 skrll zynquart_kgdb_attached = 1; 458 1.1 skrll 459 1.1 skrll SET(sc->sc_hwflags, ZYNQUART_HW_KGDB); 460 1.1 skrll } 461 1.1 skrll aprint_normal_dev(sc->sc_dev, "kgdb\n"); 462 1.1 skrll } 463 1.1 skrll #endif 464 1.1 skrll 465 1.1 skrll sc->sc_si = softint_establish(SOFTINT_SERIAL, zynquartsoft, sc); 466 1.1 skrll 467 1.1 skrll #ifdef RND_COM 468 1.1 skrll rnd_attach_source(&sc->rnd_source, device_xname(sc->sc_dev), 469 1.1 skrll RND_TYPE_TTY, 0); 470 1.1 skrll #endif 471 1.1 skrll 472 1.1 skrll /* if there are no enable/disable functions, assume the device 473 1.1 skrll is always enabled */ 474 1.1 skrll if (!sc->enable) 475 1.1 skrll sc->enabled = 1; 476 1.1 skrll 477 1.1 skrll zynquart_enable_debugport(sc); 478 1.1 skrll 479 1.1 skrll SET(sc->sc_hwflags, ZYNQUART_HW_DEV_OK); 480 1.1 skrll } 481 1.1 skrll 482 1.1 skrll int 483 1.1 skrll zynquartspeed(long speed, struct zynquart_baudrate_ratio *ratio) 484 1.1 skrll { 485 1.1 skrll return 0; 486 1.1 skrll } 487 1.1 skrll 488 1.1 skrll #ifdef ZYNQUART_DEBUG 489 1.1 skrll int zynquart_debug = 0; 490 1.1 skrll 491 1.1 skrll void zynquartstatus(struct zynquart_softc *, const char *); 492 1.1 skrll void 493 1.1 skrll zynquartstatus(struct zynquart_softc *sc, const char *str) 494 1.1 skrll { 495 1.1 skrll struct tty *tp = sc->sc_tty; 496 1.1 skrll 497 1.1 skrll aprint_normal_dev(sc->sc_dev, 498 1.1 skrll "%s %cclocal %cdcd %cts_carr_on %cdtr %ctx_stopped\n", 499 1.1 skrll str, 500 1.1 skrll ISSET(tp->t_cflag, CLOCAL) ? '+' : '-', 501 1.1 skrll ISSET(sc->sc_msr, MSR_DCD) ? '+' : '-', 502 1.1 skrll ISSET(tp->t_state, TS_CARR_ON) ? '+' : '-', 503 1.1 skrll ISSET(sc->sc_mcr, MCR_DTR) ? '+' : '-', 504 1.1 skrll sc->sc_tx_stopped ? '+' : '-'); 505 1.1 skrll 506 1.1 skrll aprint_normal_dev(sc->sc_dev, 507 1.1 skrll "%s %ccrtscts %ccts %cts_ttstop %crts rx_flags=0x%x\n", 508 1.1 skrll str, 509 1.1 skrll ISSET(tp->t_cflag, CRTSCTS) ? '+' : '-', 510 1.1 skrll ISSET(sc->sc_msr, MSR_CTS) ? '+' : '-', 511 1.1 skrll ISSET(tp->t_state, TS_TTSTOP) ? '+' : '-', 512 1.1 skrll ISSET(sc->sc_mcr, MCR_RTS) ? '+' : '-', 513 1.1 skrll sc->sc_rx_flags); 514 1.1 skrll } 515 1.1 skrll #endif 516 1.1 skrll 517 1.1 skrll #if 0 518 1.1 skrll int 519 1.1 skrll zynquart_detach(device_t self, int flags) 520 1.1 skrll { 521 1.1 skrll struct zynquart_softc *sc = device_private(self); 522 1.1 skrll int maj, mn; 523 1.1 skrll 524 1.1 skrll if (ISSET(sc->sc_hwflags, ZYNQUART_HW_CONSOLE)) 525 1.1 skrll return EBUSY; 526 1.1 skrll 527 1.1 skrll /* locate the major number */ 528 1.1 skrll maj = cdevsw_lookup_major(&zynquart_cdevsw); 529 1.1 skrll 530 1.1 skrll /* Nuke the vnodes for any open instances. */ 531 1.1 skrll mn = device_unit(self); 532 1.1 skrll vdevgone(maj, mn, mn, VCHR); 533 1.1 skrll 534 1.1 skrll mn |= ZYNQUART_DIALOUT_MASK; 535 1.1 skrll vdevgone(maj, mn, mn, VCHR); 536 1.1 skrll 537 1.1 skrll if (sc->sc_rbuf == NULL) { 538 1.1 skrll /* 539 1.1 skrll * Ring buffer allocation failed in the zynquart_attach_subr, 540 1.1 skrll * only the tty is allocated, and nothing else. 541 1.1 skrll */ 542 1.1 skrll tty_free(sc->sc_tty); 543 1.1 skrll return 0; 544 1.1 skrll } 545 1.1 skrll 546 1.1 skrll /* Free the receive buffer. */ 547 1.1 skrll free(sc->sc_rbuf, M_DEVBUF); 548 1.1 skrll 549 1.1 skrll /* Detach and free the tty. */ 550 1.1 skrll tty_detach(sc->sc_tty); 551 1.1 skrll tty_free(sc->sc_tty); 552 1.1 skrll 553 1.1 skrll /* Unhook the soft interrupt handler. */ 554 1.1 skrll softint_disestablish(sc->sc_si); 555 1.1 skrll 556 1.1 skrll #ifdef RND_COM 557 1.1 skrll /* Unhook the entropy source. */ 558 1.1 skrll rnd_detach_source(&sc->rnd_source); 559 1.1 skrll #endif 560 1.1 skrll callout_destroy(&sc->sc_diag_callout); 561 1.1 skrll 562 1.1 skrll /* Destroy the lock. */ 563 1.1 skrll mutex_destroy(&sc->sc_lock); 564 1.1 skrll 565 1.1 skrll return (0); 566 1.1 skrll } 567 1.1 skrll #endif 568 1.1 skrll 569 1.1 skrll #ifdef notyet 570 1.1 skrll int 571 1.1 skrll zynquart_activate(device_t self, enum devact act) 572 1.1 skrll { 573 1.1 skrll struct zynquart_softc *sc = device_private(self); 574 1.1 skrll int rv = 0; 575 1.1 skrll 576 1.1 skrll switch (act) { 577 1.1 skrll case DVACT_ACTIVATE: 578 1.1 skrll rv = EOPNOTSUPP; 579 1.1 skrll break; 580 1.1 skrll 581 1.1 skrll case DVACT_DEACTIVATE: 582 1.1 skrll if (sc->sc_hwflags & (ZYNQUART_HW_CONSOLE|ZYNQUART_HW_KGDB)) { 583 1.1 skrll rv = EBUSY; 584 1.1 skrll break; 585 1.1 skrll } 586 1.1 skrll 587 1.1 skrll if (sc->disable != NULL && sc->enabled != 0) { 588 1.1 skrll (*sc->disable)(sc); 589 1.1 skrll sc->enabled = 0; 590 1.1 skrll } 591 1.1 skrll break; 592 1.1 skrll } 593 1.1 skrll 594 1.1 skrll return (rv); 595 1.1 skrll } 596 1.1 skrll #endif 597 1.1 skrll 598 1.1 skrll void 599 1.1 skrll zynquart_shutdown(struct zynquart_softc *sc) 600 1.1 skrll { 601 1.1 skrll struct tty *tp = sc->sc_tty; 602 1.1 skrll 603 1.1 skrll mutex_spin_enter(&sc->sc_lock); 604 1.1 skrll 605 1.1 skrll /* If we were asserting flow control, then deassert it. */ 606 1.1 skrll SET(sc->sc_rx_flags, ZYNQUART_RX_IBUF_BLOCKED); 607 1.1 skrll zynquart_hwiflow(sc); 608 1.1 skrll 609 1.1 skrll /* Clear any break condition set with TIOCSBRK. */ 610 1.1 skrll zynquart_break(sc, false); 611 1.1 skrll 612 1.1 skrll /* 613 1.1 skrll * Hang up if necessary. Wait a bit, so the other side has time to 614 1.1 skrll * notice even if we immediately open the port again. 615 1.1 skrll * Avoid tsleeping above splhigh(). 616 1.1 skrll */ 617 1.1 skrll if (ISSET(tp->t_cflag, HUPCL)) { 618 1.1 skrll zynquart_modem(sc, 0); 619 1.1 skrll mutex_spin_exit(&sc->sc_lock); 620 1.1 skrll /* XXX will only timeout */ 621 1.1 skrll (void) kpause(ttclos, false, hz, NULL); 622 1.1 skrll mutex_spin_enter(&sc->sc_lock); 623 1.1 skrll } 624 1.1 skrll 625 1.1 skrll /* Turn off interrupts. */ 626 1.1 skrll zynquart_disable_all_interrupts(sc); 627 1.1 skrll /* re-enable recv interrupt for console or kgdb port */ 628 1.1 skrll zynquart_enable_debugport(sc); 629 1.1 skrll 630 1.1 skrll mutex_spin_exit(&sc->sc_lock); 631 1.1 skrll 632 1.1 skrll #ifdef notyet 633 1.1 skrll if (sc->disable) { 634 1.1 skrll #ifdef DIAGNOSTIC 635 1.1 skrll if (!sc->enabled) 636 1.1 skrll panic("zynquart_shutdown: not enabled?"); 637 1.1 skrll #endif 638 1.1 skrll (*sc->disable)(sc); 639 1.1 skrll sc->enabled = 0; 640 1.1 skrll } 641 1.1 skrll #endif 642 1.1 skrll } 643 1.1 skrll 644 1.1 skrll int 645 1.1 skrll zynquartopen(dev_t dev, int flag, int mode, struct lwp *l) 646 1.1 skrll { 647 1.1 skrll struct zynquart_softc *sc; 648 1.1 skrll struct tty *tp; 649 1.1 skrll int s; 650 1.1 skrll int error; 651 1.1 skrll 652 1.1 skrll sc = device_lookup_private(&zynquart_cd, ZYNQUART_UNIT(dev)); 653 1.1 skrll if (sc == NULL || !ISSET(sc->sc_hwflags, ZYNQUART_HW_DEV_OK) || 654 1.1 skrll sc->sc_rbuf == NULL) 655 1.1 skrll return (ENXIO); 656 1.1 skrll 657 1.1 skrll if (!device_is_active(sc->sc_dev)) 658 1.1 skrll return (ENXIO); 659 1.1 skrll 660 1.1 skrll #ifdef KGDB 661 1.1 skrll /* 662 1.1 skrll * If this is the kgdb port, no other use is permitted. 663 1.1 skrll */ 664 1.1 skrll if (ISSET(sc->sc_hwflags, ZYNQUART_HW_KGDB)) 665 1.1 skrll return (EBUSY); 666 1.1 skrll #endif 667 1.1 skrll 668 1.1 skrll tp = sc->sc_tty; 669 1.1 skrll 670 1.1 skrll if (kauth_authorize_device_tty(l->l_cred, KAUTH_DEVICE_TTY_OPEN, tp)) 671 1.1 skrll return (EBUSY); 672 1.1 skrll 673 1.1 skrll s = spltty(); 674 1.1 skrll 675 1.1 skrll /* 676 1.1 skrll * Do the following iff this is a first open. 677 1.1 skrll */ 678 1.1 skrll if (!ISSET(tp->t_state, TS_ISOPEN) && tp->t_wopen == 0) { 679 1.1 skrll struct termios t; 680 1.1 skrll 681 1.1 skrll tp->t_dev = dev; 682 1.1 skrll 683 1.1 skrll 684 1.1 skrll #ifdef notyet 685 1.1 skrll if (sc->enable) { 686 1.1 skrll if ((*sc->enable)(sc)) { 687 1.1 skrll splx(s); 688 1.1 skrll aprint_error_dev(sc->sc_dev, 689 1.1 skrll "device enable failed\n"); 690 1.1 skrll return (EIO); 691 1.1 skrll } 692 1.1 skrll sc->enabled = 1; 693 1.1 skrll } 694 1.1 skrll #endif 695 1.1 skrll 696 1.1 skrll mutex_spin_enter(&sc->sc_lock); 697 1.1 skrll 698 1.1 skrll zynquart_disable_all_interrupts(sc); 699 1.1 skrll 700 1.1 skrll /* Fetch the current modem control status, needed later. */ 701 1.1 skrll 702 1.1 skrll #ifdef ZYNQUART_PPS 703 1.1 skrll /* Clear PPS capture state on first open. */ 704 1.1 skrll mutex_spin_enter(&timecounter_lock); 705 1.1 skrll memset(&sc->sc_pps_state, 0, sizeof(sc->sc_pps_state)); 706 1.1 skrll sc->sc_pps_state.ppscap = PPS_CAPTUREASSERT | PPS_CAPTURECLEAR; 707 1.1 skrll pps_init(&sc->sc_pps_state); 708 1.1 skrll mutex_spin_exit(&timecounter_lock); 709 1.1 skrll #endif 710 1.1 skrll 711 1.1 skrll mutex_spin_exit(&sc->sc_lock); 712 1.1 skrll 713 1.1 skrll /* 714 1.1 skrll * Initialize the termios status to the defaults. Add in the 715 1.1 skrll * sticky bits from TIOCSFLAGS. 716 1.1 skrll */ 717 1.1 skrll if (ISSET(sc->sc_hwflags, ZYNQUART_HW_CONSOLE)) { 718 1.1 skrll t.c_ospeed = zynquartconsrate; 719 1.1 skrll t.c_cflag = zynquartconscflag; 720 1.1 skrll } else { 721 1.1 skrll t.c_ospeed = TTYDEF_SPEED; 722 1.1 skrll t.c_cflag = TTYDEF_CFLAG; 723 1.1 skrll } 724 1.1 skrll t.c_ispeed = t.c_ospeed; 725 1.1 skrll if (ISSET(sc->sc_swflags, TIOCFLAG_CLOCAL)) 726 1.1 skrll SET(t.c_cflag, CLOCAL); 727 1.1 skrll if (ISSET(sc->sc_swflags, TIOCFLAG_CRTSCTS)) 728 1.1 skrll SET(t.c_cflag, CRTSCTS); 729 1.1 skrll if (ISSET(sc->sc_swflags, TIOCFLAG_MDMBUF)) 730 1.1 skrll SET(t.c_cflag, MDMBUF); 731 1.1 skrll /* Make sure zynquartparam() will do something. */ 732 1.1 skrll tp->t_ospeed = 0; 733 1.1 skrll (void) zynquartparam(tp, &t); 734 1.1 skrll tp->t_iflag = TTYDEF_IFLAG; 735 1.1 skrll tp->t_oflag = TTYDEF_OFLAG; 736 1.1 skrll tp->t_lflag = TTYDEF_LFLAG; 737 1.1 skrll ttychars(tp); 738 1.1 skrll ttsetwater(tp); 739 1.1 skrll 740 1.1 skrll mutex_spin_enter(&sc->sc_lock); 741 1.1 skrll 742 1.1 skrll /* 743 1.1 skrll * Turn on DTR. We must always do this, even if carrier is not 744 1.1 skrll * present, because otherwise we'd have to use TIOCSDTR 745 1.1 skrll * immediately after setting CLOCAL, which applications do not 746 1.1 skrll * expect. We always assert DTR while the device is open 747 1.1 skrll * unless explicitly requested to deassert it. 748 1.1 skrll */ 749 1.1 skrll zynquart_modem(sc, 1); 750 1.1 skrll 751 1.1 skrll /* Clear the input ring, and unblock. */ 752 1.1 skrll sc->sc_rbuf_in = sc->sc_rbuf_out = 0; 753 1.1 skrll zynquart_iflush(sc); 754 1.1 skrll CLR(sc->sc_rx_flags, ZYNQUART_RX_ANY_BLOCK); 755 1.1 skrll zynquart_hwiflow(sc); 756 1.1 skrll 757 1.1 skrll /* Turn on interrupts. */ 758 1.1 skrll zynquart_control_rxint(sc, true); 759 1.1 skrll 760 1.1 skrll #ifdef ZYNQUART_DEBUG 761 1.1 skrll if (zynquart_debug) 762 1.1 skrll zynquartstatus(sc, "zynquartopen "); 763 1.1 skrll #endif 764 1.1 skrll 765 1.1 skrll mutex_spin_exit(&sc->sc_lock); 766 1.1 skrll } 767 1.1 skrll 768 1.1 skrll splx(s); 769 1.1 skrll 770 1.1 skrll #if 0 771 1.1 skrll error = ttyopen(tp, ZYNQUART_DIALOUT(dev), ISSET(flag, O_NONBLOCK)); 772 1.1 skrll #else 773 1.1 skrll error = ttyopen(tp, 1, ISSET(flag, O_NONBLOCK)); 774 1.1 skrll #endif 775 1.1 skrll if (error) 776 1.1 skrll goto bad; 777 1.1 skrll 778 1.1 skrll error = (*tp->t_linesw->l_open)(dev, tp); 779 1.1 skrll if (error) 780 1.1 skrll goto bad; 781 1.1 skrll 782 1.1 skrll return (0); 783 1.1 skrll 784 1.1 skrll bad: 785 1.1 skrll if (!ISSET(tp->t_state, TS_ISOPEN) && tp->t_wopen == 0) { 786 1.1 skrll /* 787 1.1 skrll * We failed to open the device, and nobody else had it opened. 788 1.1 skrll * Clean up the state as appropriate. 789 1.1 skrll */ 790 1.1 skrll zynquart_shutdown(sc); 791 1.1 skrll } 792 1.1 skrll 793 1.1 skrll return (error); 794 1.1 skrll } 795 1.1 skrll 796 1.1 skrll int 797 1.1 skrll zynquartclose(dev_t dev, int flag, int mode, struct lwp *l) 798 1.1 skrll { 799 1.1 skrll struct zynquart_softc *sc = 800 1.1 skrll device_lookup_private(&zynquart_cd, ZYNQUART_UNIT(dev)); 801 1.1 skrll struct tty *tp = sc->sc_tty; 802 1.1 skrll 803 1.1 skrll /* XXX This is for cons.c. */ 804 1.1 skrll if (!ISSET(tp->t_state, TS_ISOPEN)) 805 1.1 skrll return (0); 806 1.1 skrll 807 1.1 skrll (*tp->t_linesw->l_close)(tp, flag); 808 1.1 skrll ttyclose(tp); 809 1.1 skrll 810 1.1 skrll if (ZYNQUART_ISALIVE(sc) == 0) 811 1.1 skrll return (0); 812 1.1 skrll 813 1.1 skrll if (!ISSET(tp->t_state, TS_ISOPEN) && tp->t_wopen == 0) { 814 1.1 skrll /* 815 1.1 skrll * Although we got a last close, the device may still be in 816 1.1 skrll * use; e.g. if this was the dialout node, and there are still 817 1.1 skrll * processes waiting for carrier on the non-dialout node. 818 1.1 skrll */ 819 1.1 skrll zynquart_shutdown(sc); 820 1.1 skrll } 821 1.1 skrll 822 1.1 skrll return (0); 823 1.1 skrll } 824 1.1 skrll 825 1.1 skrll int 826 1.1 skrll zynquartread(dev_t dev, struct uio *uio, int flag) 827 1.1 skrll { 828 1.1 skrll struct zynquart_softc *sc = 829 1.1 skrll device_lookup_private(&zynquart_cd, ZYNQUART_UNIT(dev)); 830 1.1 skrll struct tty *tp = sc->sc_tty; 831 1.1 skrll 832 1.1 skrll if (ZYNQUART_ISALIVE(sc) == 0) 833 1.1 skrll return (EIO); 834 1.1 skrll 835 1.1 skrll return ((*tp->t_linesw->l_read)(tp, uio, flag)); 836 1.1 skrll } 837 1.1 skrll 838 1.1 skrll int 839 1.1 skrll zynquartwrite(dev_t dev, struct uio *uio, int flag) 840 1.1 skrll { 841 1.1 skrll struct zynquart_softc *sc = 842 1.1 skrll device_lookup_private(&zynquart_cd, ZYNQUART_UNIT(dev)); 843 1.1 skrll struct tty *tp = sc->sc_tty; 844 1.1 skrll 845 1.1 skrll if (ZYNQUART_ISALIVE(sc) == 0) 846 1.1 skrll return (EIO); 847 1.1 skrll 848 1.1 skrll return ((*tp->t_linesw->l_write)(tp, uio, flag)); 849 1.1 skrll } 850 1.1 skrll 851 1.1 skrll int 852 1.1 skrll zynquartpoll(dev_t dev, int events, struct lwp *l) 853 1.1 skrll { 854 1.1 skrll struct zynquart_softc *sc = 855 1.1 skrll device_lookup_private(&zynquart_cd, ZYNQUART_UNIT(dev)); 856 1.1 skrll struct tty *tp = sc->sc_tty; 857 1.1 skrll 858 1.1 skrll if (ZYNQUART_ISALIVE(sc) == 0) 859 1.1 skrll return (POLLHUP); 860 1.1 skrll 861 1.1 skrll return ((*tp->t_linesw->l_poll)(tp, events, l)); 862 1.1 skrll } 863 1.1 skrll 864 1.1 skrll struct tty * 865 1.1 skrll zynquarttty(dev_t dev) 866 1.1 skrll { 867 1.1 skrll struct zynquart_softc *sc = 868 1.1 skrll device_lookup_private(&zynquart_cd, ZYNQUART_UNIT(dev)); 869 1.1 skrll struct tty *tp = sc->sc_tty; 870 1.1 skrll 871 1.1 skrll return (tp); 872 1.1 skrll } 873 1.1 skrll 874 1.1 skrll int 875 1.1 skrll zynquartioctl(dev_t dev, u_long cmd, void *data, int flag, struct lwp *l) 876 1.1 skrll { 877 1.1 skrll struct zynquart_softc *sc; 878 1.1 skrll struct tty *tp; 879 1.1 skrll int error; 880 1.1 skrll 881 1.1 skrll sc = device_lookup_private(&zynquart_cd, ZYNQUART_UNIT(dev)); 882 1.1 skrll if (sc == NULL) 883 1.1 skrll return ENXIO; 884 1.1 skrll if (ZYNQUART_ISALIVE(sc) == 0) 885 1.1 skrll return (EIO); 886 1.1 skrll 887 1.1 skrll tp = sc->sc_tty; 888 1.1 skrll 889 1.1 skrll error = (*tp->t_linesw->l_ioctl)(tp, cmd, data, flag, l); 890 1.1 skrll if (error != EPASSTHROUGH) 891 1.1 skrll return (error); 892 1.1 skrll 893 1.1 skrll error = ttioctl(tp, cmd, data, flag, l); 894 1.1 skrll if (error != EPASSTHROUGH) 895 1.1 skrll return (error); 896 1.1 skrll 897 1.1 skrll error = 0; 898 1.1 skrll switch (cmd) { 899 1.1 skrll case TIOCSFLAGS: 900 1.1 skrll error = kauth_authorize_device_tty(l->l_cred, 901 1.1 skrll KAUTH_DEVICE_TTY_PRIVSET, tp); 902 1.1 skrll break; 903 1.1 skrll default: 904 1.1 skrll /* nothing */ 905 1.1 skrll break; 906 1.1 skrll } 907 1.1 skrll if (error) { 908 1.1 skrll return error; 909 1.1 skrll } 910 1.1 skrll 911 1.1 skrll mutex_spin_enter(&sc->sc_lock); 912 1.1 skrll 913 1.1 skrll switch (cmd) { 914 1.1 skrll case TIOCSBRK: 915 1.1 skrll zynquart_break(sc, true); 916 1.1 skrll break; 917 1.1 skrll 918 1.1 skrll case TIOCCBRK: 919 1.1 skrll zynquart_break(sc, false); 920 1.1 skrll break; 921 1.1 skrll 922 1.1 skrll case TIOCSDTR: 923 1.1 skrll zynquart_modem(sc, 1); 924 1.1 skrll break; 925 1.1 skrll 926 1.1 skrll case TIOCCDTR: 927 1.1 skrll zynquart_modem(sc, 0); 928 1.1 skrll break; 929 1.1 skrll 930 1.1 skrll case TIOCGFLAGS: 931 1.1 skrll *(int *)data = sc->sc_swflags; 932 1.1 skrll break; 933 1.1 skrll 934 1.1 skrll case TIOCSFLAGS: 935 1.1 skrll sc->sc_swflags = *(int *)data; 936 1.1 skrll break; 937 1.1 skrll 938 1.1 skrll case TIOCMSET: 939 1.1 skrll case TIOCMBIS: 940 1.1 skrll case TIOCMBIC: 941 1.1 skrll tiocm_to_zynquart(sc, cmd, *(int *)data); 942 1.1 skrll break; 943 1.1 skrll 944 1.1 skrll case TIOCMGET: 945 1.1 skrll *(int *)data = zynquart_to_tiocm(sc); 946 1.1 skrll break; 947 1.1 skrll 948 1.1 skrll #ifdef notyet 949 1.1 skrll case PPS_IOC_CREATE: 950 1.1 skrll case PPS_IOC_DESTROY: 951 1.1 skrll case PPS_IOC_GETPARAMS: 952 1.1 skrll case PPS_IOC_SETPARAMS: 953 1.1 skrll case PPS_IOC_GETCAP: 954 1.1 skrll case PPS_IOC_FETCH: 955 1.1 skrll #ifdef PPS_SYNC 956 1.1 skrll case PPS_IOC_KCBIND: 957 1.1 skrll #endif 958 1.1 skrll mutex_spin_enter(&timecounter_lock); 959 1.1 skrll error = pps_ioctl(cmd, data, &sc->sc_pps_state); 960 1.1 skrll mutex_spin_exit(&timecounter_lock); 961 1.1 skrll break; 962 1.1 skrll 963 1.1 skrll case TIOCDCDTIMESTAMP: /* XXX old, overloaded API used by xntpd v3 */ 964 1.1 skrll mutex_spin_enter(&timecounter_lock); 965 1.1 skrll #ifndef PPS_TRAILING_EDGE 966 1.1 skrll TIMESPEC_TO_TIMEVAL((struct timeval *)data, 967 1.1 skrll &sc->sc_pps_state.ppsinfo.assert_timestamp); 968 1.1 skrll #else 969 1.1 skrll TIMESPEC_TO_TIMEVAL((struct timeval *)data, 970 1.1 skrll &sc->sc_pps_state.ppsinfo.clear_timestamp); 971 1.1 skrll #endif 972 1.1 skrll mutex_spin_exit(&timecounter_lock); 973 1.1 skrll break; 974 1.1 skrll #endif 975 1.1 skrll 976 1.1 skrll default: 977 1.1 skrll error = EPASSTHROUGH; 978 1.1 skrll break; 979 1.1 skrll } 980 1.1 skrll 981 1.1 skrll mutex_spin_exit(&sc->sc_lock); 982 1.1 skrll 983 1.1 skrll #ifdef ZYNQUART_DEBUG 984 1.1 skrll if (zynquart_debug) 985 1.1 skrll zynquartstatus(sc, "zynquartioctl "); 986 1.1 skrll #endif 987 1.1 skrll 988 1.1 skrll return (error); 989 1.1 skrll } 990 1.1 skrll 991 1.1 skrll integrate void 992 1.1 skrll zynquart_schedrx(struct zynquart_softc *sc) 993 1.1 skrll { 994 1.1 skrll sc->sc_rx_ready = 1; 995 1.1 skrll 996 1.1 skrll /* Wake up the poller. */ 997 1.1 skrll softint_schedule(sc->sc_si); 998 1.1 skrll } 999 1.1 skrll 1000 1.1 skrll void 1001 1.1 skrll zynquart_break(struct zynquart_softc *sc, bool onoff) 1002 1.1 skrll { 1003 1.1 skrll bus_space_tag_t iot = sc->sc_regs.ur_iot; 1004 1.1 skrll bus_space_handle_t ioh = sc->sc_regs.ur_ioh; 1005 1.1 skrll 1006 1.1 skrll if (onoff) 1007 1.1 skrll SET(sc->sc_cr, CR_STPBRK); 1008 1.1 skrll else 1009 1.1 skrll CLR(sc->sc_cr, CR_STPBRK); 1010 1.1 skrll 1011 1.1 skrll bus_space_write_4(iot, ioh, UART_CONTROL, sc->sc_cr); 1012 1.1 skrll } 1013 1.1 skrll 1014 1.1 skrll void 1015 1.1 skrll zynquart_modem(struct zynquart_softc *sc, int onoff) 1016 1.1 skrll { 1017 1.1 skrll #ifdef notyet 1018 1.1 skrll if (sc->sc_mcr_dtr == 0) 1019 1.1 skrll return; 1020 1.1 skrll 1021 1.1 skrll if (onoff) 1022 1.1 skrll SET(sc->sc_mcr, sc->sc_mcr_dtr); 1023 1.1 skrll else 1024 1.1 skrll CLR(sc->sc_mcr, sc->sc_mcr_dtr); 1025 1.1 skrll 1026 1.1 skrll if (!sc->sc_heldchange) { 1027 1.1 skrll if (sc->sc_tx_busy) { 1028 1.1 skrll sc->sc_heldtbc = sc->sc_tbc; 1029 1.1 skrll sc->sc_tbc = 0; 1030 1.1 skrll sc->sc_heldchange = 1; 1031 1.1 skrll } else 1032 1.1 skrll zynquart_loadchannelregs(sc); 1033 1.1 skrll } 1034 1.1 skrll #endif 1035 1.1 skrll } 1036 1.1 skrll 1037 1.1 skrll void 1038 1.1 skrll tiocm_to_zynquart(struct zynquart_softc *sc, u_long how, int ttybits) 1039 1.1 skrll { 1040 1.1 skrll bus_space_tag_t iot = sc->sc_regs.ur_iot; 1041 1.1 skrll bus_space_handle_t ioh = sc->sc_regs.ur_ioh; 1042 1.1 skrll 1043 1.1 skrll u_char combits; 1044 1.1 skrll 1045 1.1 skrll combits = 0; 1046 1.1 skrll if (ISSET(ttybits, TIOCM_DTR)) 1047 1.1 skrll SET(combits, MODEMCR_DTR); 1048 1.1 skrll if (ISSET(ttybits, TIOCM_RTS)) 1049 1.1 skrll SET(combits, MODEMCR_RTS); 1050 1.1 skrll 1051 1.1 skrll switch (how) { 1052 1.1 skrll case TIOCMBIC: 1053 1.1 skrll CLR(sc->sc_mcr, combits); 1054 1.1 skrll break; 1055 1.1 skrll 1056 1.1 skrll case TIOCMBIS: 1057 1.1 skrll SET(sc->sc_mcr, combits); 1058 1.1 skrll break; 1059 1.1 skrll 1060 1.1 skrll case TIOCMSET: 1061 1.1 skrll CLR(sc->sc_mcr, MODEMCR_DTR | MODEMCR_RTS); 1062 1.1 skrll SET(sc->sc_mcr, combits); 1063 1.1 skrll break; 1064 1.1 skrll } 1065 1.1 skrll 1066 1.1 skrll bus_space_write_4(iot, ioh, UART_MODEM_CTRL, sc->sc_mcr); 1067 1.1 skrll } 1068 1.1 skrll 1069 1.1 skrll int 1070 1.1 skrll zynquart_to_tiocm(struct zynquart_softc *sc) 1071 1.1 skrll { 1072 1.1 skrll #ifdef notyet 1073 1.1 skrll bus_space_tag_t iot = sc->sc_regs.ur_iot; 1074 1.1 skrll bus_space_handle_t ioh = sc->sc_regs.ur_ioh; 1075 1.1 skrll #endif 1076 1.1 skrll uint32_t combits; 1077 1.1 skrll int ttybits = 0; 1078 1.1 skrll 1079 1.1 skrll combits = sc->sc_mcr; 1080 1.1 skrll if (ISSET(combits, MODEMCR_DTR)) 1081 1.1 skrll SET(ttybits, TIOCM_DTR); 1082 1.1 skrll if (ISSET(combits, MODEMCR_RTS)) 1083 1.1 skrll SET(ttybits, TIOCM_RTS); 1084 1.1 skrll 1085 1.1 skrll combits = sc->sc_msr; 1086 1.1 skrll if (ISSET(combits, MODEMSR_DCD)) 1087 1.1 skrll SET(ttybits, TIOCM_CD); 1088 1.1 skrll if (ISSET(combits, MODEMSR_CTS)) 1089 1.1 skrll SET(ttybits, TIOCM_CTS); 1090 1.1 skrll if (ISSET(combits, MODEMSR_DSR)) 1091 1.1 skrll SET(ttybits, TIOCM_DSR); 1092 1.1 skrll if (ISSET(combits, MODEMSR_RI | MODEMSR_TERI)) 1093 1.1 skrll SET(ttybits, TIOCM_RI); 1094 1.1 skrll 1095 1.1 skrll #ifdef notyet 1096 1.1 skrll combits = bus_space_read_4(iot, ioh, UART_INTRPT_MASK); 1097 1.1 skrll if (ISSET(sc->sc_imr, IER_ERXRDY | IER_ETXRDY | IER_ERLS | IER_EMSC)) 1098 1.1 skrll SET(ttybits, TIOCM_LE); 1099 1.1 skrll #endif 1100 1.1 skrll 1101 1.1 skrll return (ttybits); 1102 1.1 skrll } 1103 1.1 skrll 1104 1.1 skrll static uint32_t 1105 1.1 skrll cflag_to_zynquart(tcflag_t cflag, uint32_t oldval) 1106 1.1 skrll { 1107 1.1 skrll uint32_t val = oldval; 1108 1.1 skrll 1109 1.1 skrll CLR(val, MR_CHMODE | MR_NBSTOP | MR_PAR | MR_CHRL | MR_CLKS); 1110 1.1 skrll 1111 1.1 skrll switch (cflag & CSIZE) { 1112 1.1 skrll case CS5: 1113 1.1 skrll /* not suppreted. use 7-bits */ 1114 1.1 skrll case CS6: 1115 1.1 skrll SET(val, CHRL_6BIT); 1116 1.1 skrll break; 1117 1.1 skrll case CS7: 1118 1.1 skrll SET(val, CHRL_7BIT); 1119 1.1 skrll break; 1120 1.1 skrll case CS8: 1121 1.1 skrll SET(val, CHRL_8BIT); 1122 1.1 skrll break; 1123 1.1 skrll } 1124 1.1 skrll 1125 1.1 skrll if (ISSET(cflag, PARENB)) { 1126 1.1 skrll /* odd parity */ 1127 1.1 skrll if (!ISSET(cflag, PARODD)) 1128 1.1 skrll SET(val, PAR_ODD); 1129 1.1 skrll else 1130 1.1 skrll SET(val, PAR_EVEN); 1131 1.1 skrll } else { 1132 1.1 skrll SET(val, PAR_NONE); 1133 1.1 skrll } 1134 1.1 skrll 1135 1.1 skrll if (ISSET(cflag, CSTOPB)) 1136 1.1 skrll SET(val, NBSTOP_2); 1137 1.1 skrll 1138 1.1 skrll return val; 1139 1.1 skrll } 1140 1.1 skrll 1141 1.1 skrll int 1142 1.1 skrll zynquartparam(struct tty *tp, struct termios *t) 1143 1.1 skrll { 1144 1.1 skrll struct zynquart_softc *sc = 1145 1.1 skrll device_lookup_private(&zynquart_cd, ZYNQUART_UNIT(tp->t_dev)); 1146 1.1 skrll struct zynquart_baudrate_ratio ratio; 1147 1.1 skrll uint32_t mcr; 1148 1.1 skrll bool change_speed = tp->t_ospeed != t->c_ospeed; 1149 1.1 skrll 1150 1.1 skrll if (ZYNQUART_ISALIVE(sc) == 0) 1151 1.1 skrll return (EIO); 1152 1.1 skrll 1153 1.1 skrll /* Check requested parameters. */ 1154 1.1 skrll if (t->c_ispeed && t->c_ispeed != t->c_ospeed) 1155 1.1 skrll return (EINVAL); 1156 1.1 skrll 1157 1.1 skrll /* 1158 1.1 skrll * For the console, always force CLOCAL and !HUPCL, so that the port 1159 1.1 skrll * is always active. 1160 1.1 skrll */ 1161 1.1 skrll if (ISSET(sc->sc_swflags, TIOCFLAG_SOFTCAR) || 1162 1.1 skrll ISSET(sc->sc_hwflags, ZYNQUART_HW_CONSOLE)) { 1163 1.1 skrll SET(t->c_cflag, CLOCAL); 1164 1.1 skrll CLR(t->c_cflag, HUPCL); 1165 1.1 skrll } 1166 1.1 skrll 1167 1.1 skrll /* 1168 1.1 skrll * If there were no changes, don't do anything. This avoids dropping 1169 1.1 skrll * input and improves performance when all we did was frob things like 1170 1.1 skrll * VMIN and VTIME. 1171 1.1 skrll */ 1172 1.1 skrll if ( !change_speed && tp->t_cflag == t->c_cflag) 1173 1.1 skrll return (0); 1174 1.1 skrll 1175 1.1 skrll if (change_speed) { 1176 1.1 skrll /* calculate baudrate modulator value */ 1177 1.1 skrll if (zynquartspeed(t->c_ospeed, &ratio) < 0) 1178 1.1 skrll return (EINVAL); 1179 1.1 skrll sc->sc_ratio = ratio; 1180 1.1 skrll } 1181 1.1 skrll 1182 1.1 skrll mcr = cflag_to_zynquart(t->c_cflag, sc->sc_mcr); 1183 1.1 skrll 1184 1.1 skrll mutex_spin_enter(&sc->sc_lock); 1185 1.1 skrll 1186 1.1 skrll #if 0 1187 1.1 skrll /* flow control stuff. not yet */ 1188 1.1 skrll /* 1189 1.1 skrll * If we're not in a mode that assumes a connection is present, then 1190 1.1 skrll * ignore carrier changes. 1191 1.1 skrll */ 1192 1.1 skrll if (ISSET(t->c_cflag, CLOCAL | MDMBUF)) 1193 1.1 skrll sc->sc_msr_dcd = 0; 1194 1.1 skrll else 1195 1.1 skrll sc->sc_msr_dcd = MSR_DCD; 1196 1.1 skrll /* 1197 1.1 skrll * Set the flow control pins depending on the current flow control 1198 1.1 skrll * mode. 1199 1.1 skrll */ 1200 1.1 skrll if (ISSET(t->c_cflag, CRTSCTS)) { 1201 1.1 skrll sc->sc_mcr_dtr = MCR_DTR; 1202 1.1 skrll sc->sc_mcr_rts = MCR_RTS; 1203 1.1 skrll sc->sc_msr_cts = MSR_CTS; 1204 1.1 skrll sc->sc_efr = EFR_AUTORTS | EFR_AUTOCTS; 1205 1.1 skrll } else if (ISSET(t->c_cflag, MDMBUF)) { 1206 1.1 skrll /* 1207 1.1 skrll * For DTR/DCD flow control, make sure we don't toggle DTR for 1208 1.1 skrll * carrier detection. 1209 1.1 skrll */ 1210 1.1 skrll sc->sc_mcr_dtr = 0; 1211 1.1 skrll sc->sc_mcr_rts = MCR_DTR; 1212 1.1 skrll sc->sc_msr_cts = MSR_DCD; 1213 1.1 skrll sc->sc_efr = 0; 1214 1.1 skrll } else { 1215 1.1 skrll /* 1216 1.1 skrll * If no flow control, then always set RTS. This will make 1217 1.1 skrll * the other side happy if it mistakenly thinks we're doing 1218 1.1 skrll * RTS/CTS flow control. 1219 1.1 skrll */ 1220 1.1 skrll sc->sc_mcr_dtr = MCR_DTR | MCR_RTS; 1221 1.1 skrll sc->sc_mcr_rts = 0; 1222 1.1 skrll sc->sc_msr_cts = 0; 1223 1.1 skrll sc->sc_efr = 0; 1224 1.1 skrll if (ISSET(sc->sc_mcr, MCR_DTR)) 1225 1.1 skrll SET(sc->sc_mcr, MCR_RTS); 1226 1.1 skrll else 1227 1.1 skrll CLR(sc->sc_mcr, MCR_RTS); 1228 1.1 skrll } 1229 1.1 skrll sc->sc_msr_mask = sc->sc_msr_cts | sc->sc_msr_dcd; 1230 1.1 skrll #endif 1231 1.1 skrll 1232 1.1 skrll /* And copy to tty. */ 1233 1.1 skrll tp->t_ispeed = t->c_ospeed; 1234 1.1 skrll tp->t_ospeed = t->c_ospeed; 1235 1.1 skrll tp->t_cflag = t->c_cflag; 1236 1.1 skrll 1237 1.1 skrll if (!change_speed && mcr == sc->sc_mcr) { 1238 1.1 skrll /* noop */ 1239 1.1 skrll } else if (!sc->sc_pending && !sc->sc_tx_busy) { 1240 1.1 skrll if (mcr != sc->sc_mcr) { 1241 1.1 skrll sc->sc_mcr = mcr; 1242 1.1 skrll zynquart_load_params(sc); 1243 1.1 skrll } 1244 1.1 skrll if (change_speed) 1245 1.1 skrll zynquart_load_speed(sc); 1246 1.1 skrll } else { 1247 1.1 skrll if (!sc->sc_pending) { 1248 1.1 skrll sc->sc_heldtbc = sc->sc_tbc; 1249 1.1 skrll sc->sc_tbc = 0; 1250 1.1 skrll } 1251 1.1 skrll sc->sc_pending |= 1252 1.1 skrll (mcr == sc->sc_mcr ? 0 : ZYNQUART_PEND_PARAM) | 1253 1.1 skrll (change_speed ? 0 : ZYNQUART_PEND_SPEED); 1254 1.1 skrll sc->sc_mcr = mcr; 1255 1.1 skrll } 1256 1.1 skrll 1257 1.1 skrll if (!ISSET(t->c_cflag, CHWFLOW)) { 1258 1.1 skrll /* Disable the high water mark. */ 1259 1.1 skrll sc->sc_r_hiwat = 0; 1260 1.1 skrll sc->sc_r_lowat = 0; 1261 1.1 skrll if (ISSET(sc->sc_rx_flags, ZYNQUART_RX_TTY_OVERFLOWED)) { 1262 1.1 skrll CLR(sc->sc_rx_flags, ZYNQUART_RX_TTY_OVERFLOWED); 1263 1.1 skrll zynquart_schedrx(sc); 1264 1.1 skrll } 1265 1.1 skrll if (ISSET(sc->sc_rx_flags, 1266 1.1 skrll ZYNQUART_RX_TTY_BLOCKED|ZYNQUART_RX_IBUF_BLOCKED)) { 1267 1.1 skrll CLR(sc->sc_rx_flags, 1268 1.1 skrll ZYNQUART_RX_TTY_BLOCKED|ZYNQUART_RX_IBUF_BLOCKED); 1269 1.1 skrll zynquart_hwiflow(sc); 1270 1.1 skrll } 1271 1.1 skrll } else { 1272 1.1 skrll sc->sc_r_hiwat = zynquart_rbuf_hiwat; 1273 1.1 skrll sc->sc_r_lowat = zynquart_rbuf_lowat; 1274 1.1 skrll } 1275 1.1 skrll 1276 1.1 skrll mutex_spin_exit(&sc->sc_lock); 1277 1.1 skrll 1278 1.1 skrll /* 1279 1.1 skrll * Update the tty layer's idea of the carrier bit, in case we changed 1280 1.1 skrll * CLOCAL or MDMBUF. We don't hang up here; we only do that by 1281 1.1 skrll * explicit request. 1282 1.1 skrll */ 1283 1.1 skrll (void) (*tp->t_linesw->l_modem)(tp, ISSET(sc->sc_msr, MODEMSR_DCD)); 1284 1.1 skrll 1285 1.1 skrll #ifdef ZYNQUART_DEBUG 1286 1.1 skrll if (zynquart_debug) 1287 1.1 skrll zynquartstatus(sc, "zynquartparam "); 1288 1.1 skrll #endif 1289 1.1 skrll 1290 1.1 skrll if (!ISSET(t->c_cflag, CHWFLOW)) { 1291 1.1 skrll if (sc->sc_tx_stopped) { 1292 1.1 skrll sc->sc_tx_stopped = 0; 1293 1.1 skrll zynquartstart(tp); 1294 1.1 skrll } 1295 1.1 skrll } 1296 1.1 skrll 1297 1.1 skrll return (0); 1298 1.1 skrll } 1299 1.1 skrll 1300 1.1 skrll void 1301 1.1 skrll zynquart_iflush(struct zynquart_softc *sc) 1302 1.1 skrll { 1303 1.1 skrll bus_space_tag_t iot = sc->sc_regs.ur_iot; 1304 1.1 skrll bus_space_handle_t ioh = sc->sc_regs.ur_ioh; 1305 1.1 skrll #ifdef DIAGNOSTIC 1306 1.1 skrll uint32_t reg = 0xffff; 1307 1.1 skrll #endif 1308 1.1 skrll int timo; 1309 1.1 skrll 1310 1.1 skrll timo = 50000; 1311 1.1 skrll /* flush any pending I/O */ 1312 1.1 skrll while (!ISSET(bus_space_read_4(iot, ioh, UART_CHANNEL_STS), STS_REMPTY) && 1313 1.1 skrll --timo) 1314 1.1 skrll #ifdef DIAGNOSTIC 1315 1.1 skrll reg = 1316 1.1 skrll #else 1317 1.1 skrll (void) 1318 1.1 skrll #endif 1319 1.1 skrll bus_space_read_4(iot, ioh, UART_TX_RX_FIFO); 1320 1.1 skrll 1321 1.1 skrll #ifdef DIAGNOSTIC 1322 1.1 skrll if (!timo) 1323 1.1 skrll aprint_error_dev(sc->sc_dev, "zynquart_iflush timeout %02x\n", reg); 1324 1.1 skrll #endif 1325 1.1 skrll } 1326 1.1 skrll 1327 1.1 skrll int 1328 1.1 skrll zynquarthwiflow(struct tty *tp, int block) 1329 1.1 skrll { 1330 1.1 skrll struct zynquart_softc *sc = 1331 1.1 skrll device_lookup_private(&zynquart_cd, ZYNQUART_UNIT(tp->t_dev)); 1332 1.1 skrll 1333 1.1 skrll if (ZYNQUART_ISALIVE(sc) == 0) 1334 1.1 skrll return (0); 1335 1.1 skrll 1336 1.1 skrll #ifdef notyet 1337 1.1 skrll if (sc->sc_mcr_rts == 0) 1338 1.1 skrll return (0); 1339 1.1 skrll #endif 1340 1.1 skrll 1341 1.1 skrll mutex_spin_enter(&sc->sc_lock); 1342 1.1 skrll 1343 1.1 skrll if (block) { 1344 1.1 skrll if (!ISSET(sc->sc_rx_flags, ZYNQUART_RX_TTY_BLOCKED)) { 1345 1.1 skrll SET(sc->sc_rx_flags, ZYNQUART_RX_TTY_BLOCKED); 1346 1.1 skrll zynquart_hwiflow(sc); 1347 1.1 skrll } 1348 1.1 skrll } else { 1349 1.1 skrll if (ISSET(sc->sc_rx_flags, ZYNQUART_RX_TTY_OVERFLOWED)) { 1350 1.1 skrll CLR(sc->sc_rx_flags, ZYNQUART_RX_TTY_OVERFLOWED); 1351 1.1 skrll zynquart_schedrx(sc); 1352 1.1 skrll } 1353 1.1 skrll if (ISSET(sc->sc_rx_flags, ZYNQUART_RX_TTY_BLOCKED)) { 1354 1.1 skrll CLR(sc->sc_rx_flags, ZYNQUART_RX_TTY_BLOCKED); 1355 1.1 skrll zynquart_hwiflow(sc); 1356 1.1 skrll } 1357 1.1 skrll } 1358 1.1 skrll 1359 1.1 skrll mutex_spin_exit(&sc->sc_lock); 1360 1.1 skrll return (1); 1361 1.1 skrll } 1362 1.1 skrll 1363 1.1 skrll /* 1364 1.1 skrll * (un)block input via hw flowcontrol 1365 1.1 skrll */ 1366 1.1 skrll void 1367 1.1 skrll zynquart_hwiflow(struct zynquart_softc *sc) 1368 1.1 skrll { 1369 1.1 skrll #ifdef notyet 1370 1.1 skrll struct zynquart_regs *regsp= &sc->sc_regs; 1371 1.1 skrll 1372 1.1 skrll if (sc->sc_mcr_rts == 0) 1373 1.1 skrll return; 1374 1.1 skrll 1375 1.1 skrll if (ISSET(sc->sc_rx_flags, RX_ANY_BLOCK)) { 1376 1.1 skrll CLR(sc->sc_mcr, sc->sc_mcr_rts); 1377 1.1 skrll CLR(sc->sc_mcr_active, sc->sc_mcr_rts); 1378 1.1 skrll } else { 1379 1.1 skrll SET(sc->sc_mcr, sc->sc_mcr_rts); 1380 1.1 skrll SET(sc->sc_mcr_active, sc->sc_mcr_rts); 1381 1.1 skrll } 1382 1.1 skrll UR_WRITE_1(regsp, ZYNQUART_REG_MCR, sc->sc_mcr_active); 1383 1.1 skrll #endif 1384 1.1 skrll } 1385 1.1 skrll 1386 1.1 skrll 1387 1.1 skrll void 1388 1.1 skrll zynquartstart(struct tty *tp) 1389 1.1 skrll { 1390 1.1 skrll struct zynquart_softc *sc = 1391 1.1 skrll device_lookup_private(&zynquart_cd, ZYNQUART_UNIT(tp->t_dev)); 1392 1.1 skrll int s; 1393 1.1 skrll u_char *tba; 1394 1.1 skrll int tbc; 1395 1.1 skrll bus_space_tag_t iot = sc->sc_regs.ur_iot; 1396 1.1 skrll bus_space_handle_t ioh = sc->sc_regs.ur_ioh; 1397 1.1 skrll 1398 1.1 skrll if (ZYNQUART_ISALIVE(sc) == 0) 1399 1.1 skrll return; 1400 1.1 skrll 1401 1.1 skrll s = spltty(); 1402 1.1 skrll if (ISSET(tp->t_state, TS_BUSY | TS_TIMEOUT | TS_TTSTOP)) 1403 1.1 skrll goto out; 1404 1.1 skrll if (sc->sc_tx_stopped) 1405 1.1 skrll goto out; 1406 1.1 skrll if (!ttypull(tp)) 1407 1.1 skrll goto out; 1408 1.1 skrll 1409 1.1 skrll /* Grab the first contiguous region of buffer space. */ 1410 1.1 skrll tba = tp->t_outq.c_cf; 1411 1.1 skrll tbc = ndqb(&tp->t_outq, 0); 1412 1.1 skrll 1413 1.1 skrll mutex_spin_enter(&sc->sc_lock); 1414 1.1 skrll 1415 1.1 skrll sc->sc_tba = tba; 1416 1.1 skrll sc->sc_tbc = tbc; 1417 1.1 skrll 1418 1.1 skrll SET(tp->t_state, TS_BUSY); 1419 1.1 skrll sc->sc_tx_busy = 1; 1420 1.1 skrll 1421 1.1 skrll while (sc->sc_tbc > 0 && 1422 1.1 skrll !(bus_space_read_4(iot, ioh, UART_CHANNEL_STS) & STS_TFUL)) { 1423 1.1 skrll bus_space_write_4(iot, ioh, UART_TX_RX_FIFO, *sc->sc_tba); 1424 1.1 skrll sc->sc_tbc--; 1425 1.1 skrll sc->sc_tba++; 1426 1.1 skrll } 1427 1.1 skrll 1428 1.1 skrll /* Enable transmit completion interrupts */ 1429 1.1 skrll zynquart_control_txint(sc, true); 1430 1.1 skrll 1431 1.1 skrll mutex_spin_exit(&sc->sc_lock); 1432 1.1 skrll out: 1433 1.1 skrll splx(s); 1434 1.1 skrll return; 1435 1.1 skrll } 1436 1.1 skrll 1437 1.1 skrll /* 1438 1.1 skrll * Stop output on a line. 1439 1.1 skrll */ 1440 1.1 skrll void 1441 1.1 skrll zynquartstop(struct tty *tp, int flag) 1442 1.1 skrll { 1443 1.1 skrll struct zynquart_softc *sc = 1444 1.1 skrll device_lookup_private(&zynquart_cd, ZYNQUART_UNIT(tp->t_dev)); 1445 1.1 skrll 1446 1.1 skrll mutex_spin_enter(&sc->sc_lock); 1447 1.1 skrll if (ISSET(tp->t_state, TS_BUSY)) { 1448 1.1 skrll /* Stop transmitting at the next chunk. */ 1449 1.1 skrll sc->sc_tbc = 0; 1450 1.1 skrll sc->sc_heldtbc = 0; 1451 1.1 skrll if (!ISSET(tp->t_state, TS_TTSTOP)) 1452 1.1 skrll SET(tp->t_state, TS_FLUSH); 1453 1.1 skrll } 1454 1.1 skrll mutex_spin_exit(&sc->sc_lock); 1455 1.1 skrll } 1456 1.1 skrll 1457 1.1 skrll void 1458 1.1 skrll zynquartdiag(void *arg) 1459 1.1 skrll { 1460 1.1 skrll #ifdef notyet 1461 1.1 skrll struct zynquart_softc *sc = arg; 1462 1.1 skrll int overflows, floods; 1463 1.1 skrll 1464 1.1 skrll mutex_spin_enter(&sc->sc_lock); 1465 1.1 skrll overflows = sc->sc_overflows; 1466 1.1 skrll sc->sc_overflows = 0; 1467 1.1 skrll floods = sc->sc_floods; 1468 1.1 skrll sc->sc_floods = 0; 1469 1.1 skrll sc->sc_errors = 0; 1470 1.1 skrll mutex_spin_exit(&sc->sc_lock); 1471 1.1 skrll 1472 1.1 skrll log(LOG_WARNING, "%s: %d silo overflow%s, %d ibuf flood%s\n", 1473 1.1 skrll device_xname(sc->sc_dev), 1474 1.1 skrll overflows, overflows == 1 ? "" : "s", 1475 1.1 skrll floods, floods == 1 ? "" : "s"); 1476 1.1 skrll #endif 1477 1.1 skrll } 1478 1.1 skrll 1479 1.1 skrll integrate void 1480 1.1 skrll zynquart_rxsoft(struct zynquart_softc *sc, struct tty *tp) 1481 1.1 skrll { 1482 1.1 skrll int (*rint)(int, struct tty *) = tp->t_linesw->l_rint; 1483 1.1 skrll u_int cc, scc, outp; 1484 1.1 skrll uint16_t data; 1485 1.1 skrll u_int code; 1486 1.1 skrll 1487 1.1 skrll scc = cc = ZYNQUART_RBUF_AVAIL(sc); 1488 1.1 skrll 1489 1.1 skrll #if 0 1490 1.1 skrll if (cc == zynquart_rbuf_size-1) { 1491 1.1 skrll sc->sc_floods++; 1492 1.1 skrll if (sc->sc_errors++ == 0) 1493 1.1 skrll callout_reset(&sc->sc_diag_callout, 60 * hz, 1494 1.1 skrll zynquartdiag, sc); 1495 1.1 skrll } 1496 1.1 skrll #endif 1497 1.1 skrll 1498 1.1 skrll /* If not yet open, drop the entire buffer content here */ 1499 1.1 skrll if (!ISSET(tp->t_state, TS_ISOPEN)) { 1500 1.1 skrll sc->sc_rbuf_out = sc->sc_rbuf_in; 1501 1.1 skrll cc = 0; 1502 1.1 skrll } 1503 1.1 skrll 1504 1.1 skrll outp = sc->sc_rbuf_out; 1505 1.1 skrll 1506 1.1 skrll #define ERRBITS (INT_PARE|INT_FRAME|INT_ROVR) 1507 1.1 skrll 1508 1.1 skrll while (cc) { 1509 1.1 skrll data = sc->sc_rbuf[outp]; 1510 1.1 skrll code = data & 0xff; 1511 1.1 skrll if (ISSET(__SHIFTOUT(data, ERROR_BITS), ERRBITS)) { 1512 1.1 skrll if (sc->sc_errors.err == 0) 1513 1.1 skrll callout_reset(&sc->sc_diag_callout, 1514 1.1 skrll 60 * hz, zynquartdiag, sc); 1515 1.1 skrll if (ISSET(__SHIFTOUT(data, ERROR_BITS), INT_ROVR)) 1516 1.1 skrll sc->sc_errors.ovrrun++; 1517 1.1 skrll if (ISSET(__SHIFTOUT(data, ERROR_BITS), INT_FRAME)) { 1518 1.1 skrll sc->sc_errors.frmerr++; 1519 1.1 skrll SET(code, TTY_FE); 1520 1.1 skrll } 1521 1.1 skrll if (ISSET(__SHIFTOUT(data, ERROR_BITS), INT_PARE)) { 1522 1.1 skrll sc->sc_errors.prerr++; 1523 1.1 skrll SET(code, TTY_PE); 1524 1.1 skrll } 1525 1.1 skrll } 1526 1.1 skrll if ((*rint)(code, tp) == -1) { 1527 1.1 skrll /* 1528 1.1 skrll * The line discipline's buffer is out of space. 1529 1.1 skrll */ 1530 1.1 skrll if (!ISSET(sc->sc_rx_flags, ZYNQUART_RX_TTY_BLOCKED)) { 1531 1.1 skrll /* 1532 1.1 skrll * We're either not using flow control, or the 1533 1.1 skrll * line discipline didn't tell us to block for 1534 1.1 skrll * some reason. Either way, we have no way to 1535 1.1 skrll * know when there's more space available, so 1536 1.1 skrll * just drop the rest of the data. 1537 1.1 skrll */ 1538 1.1 skrll sc->sc_rbuf_out = sc->sc_rbuf_in; 1539 1.1 skrll cc = 0; 1540 1.1 skrll } else { 1541 1.1 skrll /* 1542 1.1 skrll * Don't schedule any more receive processing 1543 1.1 skrll * until the line discipline tells us there's 1544 1.1 skrll * space available (through zynquarthwiflow()). 1545 1.1 skrll * Leave the rest of the data in the input 1546 1.1 skrll * buffer. 1547 1.1 skrll */ 1548 1.1 skrll SET(sc->sc_rx_flags, ZYNQUART_RX_TTY_OVERFLOWED); 1549 1.1 skrll } 1550 1.1 skrll break; 1551 1.1 skrll } 1552 1.1 skrll outp = ZYNQUART_RBUF_INC(sc, outp, 1); 1553 1.1 skrll cc--; 1554 1.1 skrll } 1555 1.1 skrll 1556 1.1 skrll if (cc != scc) { 1557 1.1 skrll sc->sc_rbuf_out = outp; 1558 1.1 skrll mutex_spin_enter(&sc->sc_lock); 1559 1.1 skrll 1560 1.1 skrll cc = ZYNQUART_RBUF_SPACE(sc); 1561 1.1 skrll 1562 1.1 skrll /* Buffers should be ok again, release possible block. */ 1563 1.1 skrll if (cc >= sc->sc_r_lowat) { 1564 1.1 skrll if (ISSET(sc->sc_rx_flags, ZYNQUART_RX_IBUF_OVERFLOWED)) { 1565 1.1 skrll CLR(sc->sc_rx_flags, ZYNQUART_RX_IBUF_OVERFLOWED); 1566 1.1 skrll zynquart_control_rxint(sc, true); 1567 1.1 skrll } 1568 1.1 skrll if (ISSET(sc->sc_rx_flags, ZYNQUART_RX_IBUF_BLOCKED)) { 1569 1.1 skrll CLR(sc->sc_rx_flags, ZYNQUART_RX_IBUF_BLOCKED); 1570 1.1 skrll zynquart_hwiflow(sc); 1571 1.1 skrll } 1572 1.1 skrll } 1573 1.1 skrll mutex_spin_exit(&sc->sc_lock); 1574 1.1 skrll } 1575 1.1 skrll } 1576 1.1 skrll 1577 1.1 skrll integrate void 1578 1.1 skrll zynquart_txsoft(struct zynquart_softc *sc, struct tty *tp) 1579 1.1 skrll { 1580 1.1 skrll 1581 1.1 skrll CLR(tp->t_state, TS_BUSY); 1582 1.1 skrll if (ISSET(tp->t_state, TS_FLUSH)) 1583 1.1 skrll CLR(tp->t_state, TS_FLUSH); 1584 1.1 skrll else 1585 1.1 skrll ndflush(&tp->t_outq, (int)(sc->sc_tba - tp->t_outq.c_cf)); 1586 1.1 skrll (*tp->t_linesw->l_start)(tp); 1587 1.1 skrll } 1588 1.1 skrll 1589 1.1 skrll integrate void 1590 1.1 skrll zynquart_stsoft(struct zynquart_softc *sc, struct tty *tp) 1591 1.1 skrll { 1592 1.1 skrll #ifdef notyet 1593 1.1 skrll u_char msr, delta; 1594 1.1 skrll 1595 1.1 skrll mutex_spin_enter(&sc->sc_lock); 1596 1.1 skrll msr = sc->sc_msr; 1597 1.1 skrll delta = sc->sc_msr_delta; 1598 1.1 skrll sc->sc_msr_delta = 0; 1599 1.1 skrll mutex_spin_exit(&sc->sc_lock); 1600 1.1 skrll 1601 1.1 skrll if (ISSET(delta, sc->sc_msr_dcd)) { 1602 1.1 skrll /* 1603 1.1 skrll * Inform the tty layer that carrier detect changed. 1604 1.1 skrll */ 1605 1.1 skrll (void) (*tp->t_linesw->l_modem)(tp, ISSET(msr, MSR_DCD)); 1606 1.1 skrll } 1607 1.1 skrll 1608 1.1 skrll if (ISSET(delta, sc->sc_msr_cts)) { 1609 1.1 skrll /* Block or unblock output according to flow control. */ 1610 1.1 skrll if (ISSET(msr, sc->sc_msr_cts)) { 1611 1.1 skrll sc->sc_tx_stopped = 0; 1612 1.1 skrll (*tp->t_linesw->l_start)(tp); 1613 1.1 skrll } else { 1614 1.1 skrll sc->sc_tx_stopped = 1; 1615 1.1 skrll } 1616 1.1 skrll } 1617 1.1 skrll 1618 1.1 skrll #endif 1619 1.1 skrll #ifdef ZYNQUART_DEBUG 1620 1.1 skrll if (zynquart_debug) 1621 1.1 skrll zynquartstatus(sc, "zynquart_stsoft"); 1622 1.1 skrll #endif 1623 1.1 skrll } 1624 1.1 skrll 1625 1.1 skrll void 1626 1.1 skrll zynquartsoft(void *arg) 1627 1.1 skrll { 1628 1.1 skrll struct zynquart_softc *sc = arg; 1629 1.1 skrll struct tty *tp; 1630 1.1 skrll 1631 1.1 skrll if (ZYNQUART_ISALIVE(sc) == 0) 1632 1.1 skrll return; 1633 1.1 skrll 1634 1.1 skrll tp = sc->sc_tty; 1635 1.1 skrll 1636 1.1 skrll if (sc->sc_rx_ready) { 1637 1.1 skrll sc->sc_rx_ready = 0; 1638 1.1 skrll zynquart_rxsoft(sc, tp); 1639 1.1 skrll } 1640 1.1 skrll 1641 1.1 skrll if (sc->sc_st_check) { 1642 1.1 skrll sc->sc_st_check = 0; 1643 1.1 skrll zynquart_stsoft(sc, tp); 1644 1.1 skrll } 1645 1.1 skrll 1646 1.1 skrll if (sc->sc_tx_done) { 1647 1.1 skrll sc->sc_tx_done = 0; 1648 1.1 skrll zynquart_txsoft(sc, tp); 1649 1.1 skrll } 1650 1.1 skrll } 1651 1.1 skrll 1652 1.1 skrll int 1653 1.1 skrll zynquartintr(void *arg) 1654 1.1 skrll { 1655 1.1 skrll struct zynquart_softc *sc = arg; 1656 1.1 skrll uint32_t sts; 1657 1.1 skrll uint32_t int_sts; 1658 1.1 skrll bus_space_tag_t iot = sc->sc_regs.ur_iot; 1659 1.1 skrll bus_space_handle_t ioh = sc->sc_regs.ur_ioh; 1660 1.1 skrll 1661 1.1 skrll if (ZYNQUART_ISALIVE(sc) == 0) 1662 1.1 skrll return (0); 1663 1.1 skrll 1664 1.1 skrll mutex_spin_enter(&sc->sc_lock); 1665 1.1 skrll 1666 1.1 skrll int_sts = bus_space_read_4(iot, ioh, UART_CHNL_INT_STS); 1667 1.1 skrll do { 1668 1.1 skrll sts = bus_space_read_4(iot, ioh, UART_CHANNEL_STS); 1669 1.1 skrll if (!(sts & STS_REMPTY)) 1670 1.1 skrll zynquartintr_read(sc); 1671 1.1 skrll } while (!(sts & STS_REMPTY)); 1672 1.1 skrll 1673 1.1 skrll if (sts & STS_TEMPTY) 1674 1.1 skrll zynquartintr_send(sc); 1675 1.1 skrll 1676 1.1 skrll bus_space_write_4(iot, ioh, UART_CHNL_INT_STS, int_sts); 1677 1.1 skrll 1678 1.1 skrll mutex_spin_exit(&sc->sc_lock); 1679 1.1 skrll 1680 1.1 skrll /* Wake up the poller. */ 1681 1.1 skrll softint_schedule(sc->sc_si); 1682 1.1 skrll 1683 1.1 skrll #ifdef RND_COM 1684 1.1 skrll rnd_add_uint32(&sc->rnd_source, iir | lsr); 1685 1.1 skrll #endif 1686 1.1 skrll 1687 1.1 skrll return (1); 1688 1.1 skrll } 1689 1.1 skrll 1690 1.1 skrll 1691 1.1 skrll /* 1692 1.1 skrll * called when there is least one character in rxfifo 1693 1.1 skrll * 1694 1.1 skrll */ 1695 1.1 skrll 1696 1.1 skrll static void 1697 1.1 skrll zynquartintr_read(struct zynquart_softc *sc) 1698 1.1 skrll { 1699 1.1 skrll int cc; 1700 1.1 skrll uint16_t rd; 1701 1.1 skrll uint32_t sts; 1702 1.1 skrll bus_space_tag_t iot = sc->sc_regs.ur_iot; 1703 1.1 skrll bus_space_handle_t ioh = sc->sc_regs.ur_ioh; 1704 1.1 skrll 1705 1.1 skrll cc = ZYNQUART_RBUF_SPACE(sc); 1706 1.1 skrll 1707 1.1 skrll /* clear aging timer interrupt */ 1708 1.1 skrll bus_space_write_4(iot, ioh, UART_CHNL_INT_STS, INT_TIMEOUT); 1709 1.1 skrll 1710 1.1 skrll while (cc > 0) { 1711 1.1 skrll int cn_trapped = 0; 1712 1.1 skrll 1713 1.1 skrll sc->sc_rbuf[sc->sc_rbuf_in] = rd = 1714 1.1 skrll bus_space_read_4(iot, ioh, UART_TX_RX_FIFO); 1715 1.1 skrll 1716 1.1 skrll cn_check_magic(sc->sc_tty->t_dev, 1717 1.1 skrll rd & 0xff, zynquart_cnm_state); 1718 1.1 skrll 1719 1.1 skrll if (!cn_trapped) { 1720 1.1 skrll sc->sc_rbuf_in = ZYNQUART_RBUF_INC(sc, sc->sc_rbuf_in, 1); 1721 1.1 skrll cc--; 1722 1.1 skrll } 1723 1.1 skrll 1724 1.1 skrll sts = bus_space_read_4(iot, ioh, UART_CHANNEL_STS); 1725 1.1 skrll if (sts & STS_REMPTY) 1726 1.1 skrll break; 1727 1.1 skrll } 1728 1.1 skrll 1729 1.1 skrll /* 1730 1.1 skrll * Current string of incoming characters ended because 1731 1.1 skrll * no more data was available or we ran out of space. 1732 1.1 skrll * Schedule a receive event if any data was received. 1733 1.1 skrll * If we're out of space, turn off receive interrupts. 1734 1.1 skrll */ 1735 1.1 skrll if (!ISSET(sc->sc_rx_flags, ZYNQUART_RX_TTY_OVERFLOWED)) 1736 1.1 skrll sc->sc_rx_ready = 1; 1737 1.1 skrll /* 1738 1.1 skrll * See if we are in danger of overflowing a buffer. If 1739 1.1 skrll * so, use hardware flow control to ease the pressure. 1740 1.1 skrll */ 1741 1.1 skrll if (!ISSET(sc->sc_rx_flags, ZYNQUART_RX_IBUF_BLOCKED) && 1742 1.1 skrll cc < sc->sc_r_hiwat) { 1743 1.1 skrll sc->sc_rx_flags |= ZYNQUART_RX_IBUF_BLOCKED; 1744 1.1 skrll zynquart_hwiflow(sc); 1745 1.1 skrll } 1746 1.1 skrll 1747 1.1 skrll /* 1748 1.1 skrll * If we're out of space, disable receive interrupts 1749 1.1 skrll * until the queue has drained a bit. 1750 1.1 skrll */ 1751 1.1 skrll if (!cc) { 1752 1.1 skrll sc->sc_rx_flags |= ZYNQUART_RX_IBUF_OVERFLOWED; 1753 1.1 skrll zynquart_control_rxint(sc, false); 1754 1.1 skrll } 1755 1.1 skrll } 1756 1.1 skrll 1757 1.1 skrll void 1758 1.1 skrll zynquartintr_send(struct zynquart_softc *sc) 1759 1.1 skrll { 1760 1.1 skrll uint32_t sts; 1761 1.1 skrll bus_space_tag_t iot = sc->sc_regs.ur_iot; 1762 1.1 skrll bus_space_handle_t ioh = sc->sc_regs.ur_ioh; 1763 1.1 skrll 1764 1.1 skrll sts = bus_space_read_4(iot, ioh, UART_CHANNEL_STS); 1765 1.1 skrll 1766 1.1 skrll if (sc->sc_pending) { 1767 1.1 skrll if (sts & STS_TEMPTY) { 1768 1.1 skrll zynquart_load_pendings(sc); 1769 1.1 skrll sc->sc_tbc = sc->sc_heldtbc; 1770 1.1 skrll sc->sc_heldtbc = 0; 1771 1.1 skrll } else { 1772 1.1 skrll /* wait for TX fifo empty */ 1773 1.1 skrll zynquart_control_txint(sc, true); 1774 1.1 skrll return; 1775 1.1 skrll } 1776 1.1 skrll } 1777 1.1 skrll 1778 1.1 skrll while (sc->sc_tbc > 0 && 1779 1.1 skrll !(bus_space_read_4(iot, ioh, UART_CHANNEL_STS) & STS_TFUL)) { 1780 1.1 skrll bus_space_write_4(iot, ioh, UART_TX_RX_FIFO, *sc->sc_tba); 1781 1.1 skrll sc->sc_tbc--; 1782 1.1 skrll sc->sc_tba++; 1783 1.1 skrll } 1784 1.1 skrll 1785 1.1 skrll if (sc->sc_tbc > 0) 1786 1.1 skrll zynquart_control_txint(sc, true); 1787 1.1 skrll else { 1788 1.1 skrll /* no more chars to send. 1789 1.1 skrll we don't need tx interrupt any more. */ 1790 1.1 skrll zynquart_control_txint(sc, false); 1791 1.1 skrll if (sc->sc_tx_busy) { 1792 1.1 skrll sc->sc_tx_busy = 0; 1793 1.1 skrll sc->sc_tx_done = 1; 1794 1.1 skrll } 1795 1.1 skrll } 1796 1.1 skrll } 1797 1.1 skrll 1798 1.1 skrll static void 1799 1.1 skrll zynquart_disable_all_interrupts(struct zynquart_softc *sc) 1800 1.1 skrll { 1801 1.1 skrll bus_space_tag_t iot = sc->sc_regs.ur_iot; 1802 1.1 skrll bus_space_handle_t ioh = sc->sc_regs.ur_ioh; 1803 1.1 skrll 1804 1.1 skrll bus_space_write_4(iot, ioh, UART_INTRPT_DIS, 0xffffffff); 1805 1.1 skrll } 1806 1.1 skrll 1807 1.1 skrll static void 1808 1.1 skrll zynquart_control_rxint(struct zynquart_softc *sc, bool enable) 1809 1.1 skrll { 1810 1.1 skrll bus_space_tag_t iot = sc->sc_regs.ur_iot; 1811 1.1 skrll bus_space_handle_t ioh = sc->sc_regs.ur_ioh; 1812 1.1 skrll uint32_t mask = INT_TIMEOUT | INT_PARE | INT_FRAME | INT_ROVR | INT_RFUL | INT_RTRIG; 1813 1.1 skrll uint32_t sts; 1814 1.1 skrll 1815 1.1 skrll /* clear */ 1816 1.1 skrll sts = bus_space_read_4(iot, ioh, UART_CHNL_INT_STS); 1817 1.1 skrll bus_space_write_4(iot, ioh, UART_CHNL_INT_STS, sts); 1818 1.1 skrll 1819 1.1 skrll if (enable) 1820 1.1 skrll bus_space_write_4(iot, ioh, UART_INTRPT_EN, mask); 1821 1.1 skrll else 1822 1.1 skrll bus_space_write_4(iot, ioh, UART_INTRPT_DIS, mask); 1823 1.1 skrll } 1824 1.1 skrll 1825 1.1 skrll static void 1826 1.1 skrll zynquart_control_txint(struct zynquart_softc *sc, bool enable) 1827 1.1 skrll { 1828 1.1 skrll bus_space_tag_t iot = sc->sc_regs.ur_iot; 1829 1.1 skrll bus_space_handle_t ioh = sc->sc_regs.ur_ioh; 1830 1.1 skrll uint32_t mask = INT_TEMPTY; 1831 1.1 skrll 1832 1.1 skrll if (enable) 1833 1.1 skrll bus_space_write_4(iot, ioh, UART_INTRPT_EN, mask); 1834 1.1 skrll else 1835 1.1 skrll bus_space_write_4(iot, ioh, UART_INTRPT_DIS, mask); 1836 1.1 skrll } 1837 1.1 skrll 1838 1.1 skrll 1839 1.1 skrll static void 1840 1.1 skrll zynquart_load_params(struct zynquart_softc *sc) 1841 1.1 skrll { 1842 1.1 skrll bus_space_tag_t iot = sc->sc_regs.ur_iot; 1843 1.1 skrll bus_space_handle_t ioh = sc->sc_regs.ur_ioh; 1844 1.1 skrll 1845 1.1 skrll bus_space_write_4(iot, ioh, UART_MODE, sc->sc_mcr); 1846 1.1 skrll } 1847 1.1 skrll 1848 1.1 skrll static void 1849 1.1 skrll zynquart_load_speed(struct zynquart_softc *sc) 1850 1.1 skrll { 1851 1.1 skrll /* bus_space_tag_t iot = sc->sc_regs.ur_iot; */ 1852 1.1 skrll /* bus_space_handle_t ioh = sc->sc_regs.ur_ioh; */ 1853 1.1 skrll 1854 1.1 skrll /* XXX */ 1855 1.1 skrll } 1856 1.1 skrll 1857 1.1 skrll 1858 1.1 skrll static void 1859 1.1 skrll zynquart_load_pendings(struct zynquart_softc *sc) 1860 1.1 skrll { 1861 1.1 skrll if (sc->sc_pending & ZYNQUART_PEND_PARAM) 1862 1.1 skrll zynquart_load_params(sc); 1863 1.1 skrll if (sc->sc_pending & ZYNQUART_PEND_SPEED) 1864 1.1 skrll zynquart_load_speed(sc); 1865 1.1 skrll sc->sc_pending = 0; 1866 1.1 skrll } 1867 1.1 skrll 1868 1.1 skrll /* 1869 1.1 skrll * The following functions are polled getc and putc routines, shared 1870 1.1 skrll * by the console and kgdb glue. 1871 1.1 skrll * 1872 1.1 skrll * The read-ahead code is so that you can detect pending in-band 1873 1.1 skrll * cn_magic in polled mode while doing output rather than having to 1874 1.1 skrll * wait until the kernel decides it needs input. 1875 1.1 skrll */ 1876 1.1 skrll 1877 1.1 skrll #define READAHEAD_RING_LEN 16 1878 1.1 skrll static int zynquart_readahead[READAHEAD_RING_LEN]; 1879 1.1 skrll static int zynquart_readahead_in = 0; 1880 1.1 skrll static int zynquart_readahead_out = 0; 1881 1.1 skrll #define READAHEAD_IS_EMPTY() (zynquart_readahead_in==zynquart_readahead_out) 1882 1.1 skrll #define READAHEAD_IS_FULL() \ 1883 1.1 skrll (((zynquart_readahead_in+1) & (READAHEAD_RING_LEN-1)) ==zynquart_readahead_out) 1884 1.1 skrll 1885 1.1 skrll int 1886 1.1 skrll zynquart_common_getc(dev_t dev, struct zynquart_regs *regsp) 1887 1.1 skrll { 1888 1.1 skrll int s = splserial(); 1889 1.1 skrll u_char c; 1890 1.1 skrll bus_space_tag_t iot = regsp->ur_iot; 1891 1.1 skrll bus_space_handle_t ioh = regsp->ur_ioh; 1892 1.1 skrll uint32_t sts; 1893 1.1 skrll 1894 1.1 skrll /* got a character from reading things earlier */ 1895 1.1 skrll if (zynquart_readahead_in != zynquart_readahead_out) { 1896 1.1 skrll 1897 1.1 skrll c = zynquart_readahead[zynquart_readahead_out]; 1898 1.1 skrll zynquart_readahead_out = (zynquart_readahead_out + 1) & 1899 1.1 skrll (READAHEAD_RING_LEN-1); 1900 1.1 skrll splx(s); 1901 1.1 skrll return (c); 1902 1.1 skrll } 1903 1.1 skrll 1904 1.1 skrll /* block until a character becomes available */ 1905 1.1 skrll while ((sts = bus_space_read_4(iot, ioh, UART_CHANNEL_STS)) & STS_REMPTY) 1906 1.1 skrll ; 1907 1.1 skrll 1908 1.1 skrll c = 0xff & bus_space_read_4(iot, ioh, UART_TX_RX_FIFO); 1909 1.1 skrll 1910 1.1 skrll { 1911 1.1 skrll int __attribute__((__unused__))cn_trapped = 0; /* unused */ 1912 1.1 skrll #ifdef DDB 1913 1.1 skrll extern int db_active; 1914 1.1 skrll if (!db_active) 1915 1.1 skrll #endif 1916 1.1 skrll cn_check_magic(dev, c, zynquart_cnm_state); 1917 1.1 skrll } 1918 1.1 skrll splx(s); 1919 1.1 skrll return (c); 1920 1.1 skrll } 1921 1.1 skrll 1922 1.1 skrll void 1923 1.1 skrll zynquart_common_putc(dev_t dev, struct zynquart_regs *regsp, int c) 1924 1.1 skrll { 1925 1.1 skrll int s = splserial(); 1926 1.1 skrll int cin, timo; 1927 1.1 skrll bus_space_tag_t iot = regsp->ur_iot; 1928 1.1 skrll bus_space_handle_t ioh = regsp->ur_ioh; 1929 1.1 skrll 1930 1.1 skrll if (!READAHEAD_IS_FULL() && 1931 1.1 skrll !(bus_space_read_4(iot, ioh, UART_CHANNEL_STS) & STS_REMPTY)) { 1932 1.1 skrll 1933 1.1 skrll int __attribute__((__unused__))cn_trapped = 0; 1934 1.1 skrll cin = bus_space_read_4(iot, ioh, UART_TX_RX_FIFO); 1935 1.1 skrll cn_check_magic(dev, cin & 0xff, zynquart_cnm_state); 1936 1.1 skrll zynquart_readahead_in = (zynquart_readahead_in + 1) & 1937 1.1 skrll (READAHEAD_RING_LEN-1); 1938 1.1 skrll } 1939 1.1 skrll 1940 1.1 skrll /* wait for any pending transmission to finish */ 1941 1.1 skrll timo = 150000; 1942 1.1 skrll do { 1943 1.1 skrll if (!(bus_space_read_4(iot, ioh, UART_CHANNEL_STS) & STS_TFUL)) { 1944 1.1 skrll bus_space_write_4(iot, ioh, UART_TX_RX_FIFO, c); 1945 1.1 skrll break; 1946 1.1 skrll } 1947 1.1 skrll } while(--timo > 0); 1948 1.1 skrll 1949 1.1 skrll ZYNQUART_BARRIER(regsp, BR | BW); 1950 1.1 skrll 1951 1.1 skrll splx(s); 1952 1.1 skrll } 1953 1.1 skrll 1954 1.1 skrll /* 1955 1.1 skrll * Initialize UART for use as console or KGDB line. 1956 1.1 skrll */ 1957 1.1 skrll int 1958 1.1 skrll zynquart_init(struct zynquart_regs *regsp, int rate, tcflag_t cflag) 1959 1.1 skrll { 1960 1.1 skrll struct zynquart_baudrate_ratio ratio; 1961 1.1 skrll 1962 1.1 skrll if (bus_space_map(regsp->ur_iot, regsp->ur_iobase, UART_SIZE, 0, 1963 1.1 skrll ®sp->ur_ioh)) 1964 1.1 skrll return ENOMEM; /* ??? */ 1965 1.1 skrll 1966 1.1 skrll if (zynquartspeed(rate, &ratio) < 0) 1967 1.1 skrll return EINVAL; 1968 1.1 skrll 1969 1.1 skrll /* clear status registers */ 1970 1.1 skrll bus_space_write_4(regsp->ur_iot, regsp->ur_ioh, UART_CHNL_INT_STS, 0xffff); 1971 1.1 skrll bus_space_write_4(regsp->ur_iot, regsp->ur_ioh, UART_CHANNEL_STS, 0xffff); 1972 1.1 skrll 1973 1.1 skrll return (0); 1974 1.1 skrll } 1975 1.1 skrll 1976 1.1 skrll 1977 1.1 skrll 1978 1.1 skrll /* 1979 1.1 skrll * Following are all routines needed for UART to act as console 1980 1.1 skrll */ 1981 1.1 skrll struct consdev zynquartcons = { 1982 1.1 skrll .cn_getc = zynquartcngetc, 1983 1.1 skrll .cn_putc = zynquartcnputc, 1984 1.1 skrll .cn_pollc = nullcnpollc 1985 1.1 skrll }; 1986 1.1 skrll 1987 1.1 skrll 1988 1.1 skrll int 1989 1.1 skrll zynquart_cons_attach(bus_space_tag_t iot, paddr_t iobase, u_int rate, 1990 1.1 skrll tcflag_t cflag) 1991 1.1 skrll { 1992 1.1 skrll struct zynquart_regs regs; 1993 1.1 skrll int res; 1994 1.1 skrll 1995 1.1 skrll regs.ur_iot = iot; 1996 1.1 skrll regs.ur_iobase = iobase; 1997 1.1 skrll 1998 1.1 skrll res = zynquart_init(®s, rate, cflag); 1999 1.1 skrll if (res) 2000 1.1 skrll return (res); 2001 1.1 skrll 2002 1.1 skrll cn_tab = &zynquartcons; 2003 1.1 skrll cn_init_magic(&zynquart_cnm_state); 2004 1.1 skrll cn_set_magic("\047\001"); /* default magic is BREAK */ 2005 1.1 skrll 2006 1.1 skrll zynquartconsrate = rate; 2007 1.1 skrll zynquartconscflag = cflag; 2008 1.1 skrll 2009 1.1 skrll zynquartconsregs = regs; 2010 1.1 skrll 2011 1.1 skrll return 0; 2012 1.1 skrll } 2013 1.1 skrll 2014 1.1 skrll int 2015 1.1 skrll zynquartcngetc(dev_t dev) 2016 1.1 skrll { 2017 1.1 skrll return (zynquart_common_getc(dev, &zynquartconsregs)); 2018 1.1 skrll } 2019 1.1 skrll 2020 1.1 skrll /* 2021 1.1 skrll * Console kernel output character routine. 2022 1.1 skrll */ 2023 1.1 skrll void 2024 1.1 skrll zynquartcnputc(dev_t dev, int c) 2025 1.1 skrll { 2026 1.1 skrll zynquart_common_putc(dev, &zynquartconsregs, c); 2027 1.1 skrll } 2028 1.1 skrll 2029 1.1 skrll #ifdef KGDB 2030 1.1 skrll int 2031 1.1 skrll zynquart_kgdb_attach(bus_space_tag_t iot, paddr_t iobase, u_int rate, 2032 1.1 skrll tcflag_t cflag) 2033 1.1 skrll { 2034 1.1 skrll int res; 2035 1.1 skrll 2036 1.1 skrll if (iot == zynquartconsregs.ur_iot && 2037 1.1 skrll iobase == zynquartconsregs.ur_iobase) { 2038 1.1 skrll #if !defined(DDB) 2039 1.1 skrll return (EBUSY); /* cannot share with console */ 2040 1.1 skrll #else 2041 1.1 skrll zynquart_kgdb_regs.ur_iot = iot; 2042 1.1 skrll zynquart_kgdb_regs.ur_ioh = zynquartconsregs.ur_ioh; 2043 1.1 skrll zynquart_kgdb_regs.ur_iobase = iobase; 2044 1.1 skrll #endif 2045 1.1 skrll } else { 2046 1.1 skrll zynquart_kgdb_regs.ur_iot = iot; 2047 1.1 skrll zynquart_kgdb_regs.ur_iobase = iobase; 2048 1.1 skrll 2049 1.1 skrll res = zynquart_init(&zynquart_kgdb_regs, rate, cflag); 2050 1.1 skrll if (res) 2051 1.1 skrll return (res); 2052 1.1 skrll 2053 1.1 skrll /* 2054 1.1 skrll * XXXfvdl this shouldn't be needed, but the cn_magic goo 2055 1.1 skrll * expects this to be initialized 2056 1.1 skrll */ 2057 1.1 skrll cn_init_magic(&zynquart_cnm_state); 2058 1.1 skrll cn_set_magic("\047\001"); 2059 1.1 skrll } 2060 1.1 skrll 2061 1.1 skrll kgdb_attach(zynquart_kgdb_getc, zynquart_kgdb_putc, &zynquart_kgdb_regs); 2062 1.1 skrll kgdb_dev = 123; /* unneeded, only to satisfy some tests */ 2063 1.1 skrll 2064 1.1 skrll return (0); 2065 1.1 skrll } 2066 1.1 skrll 2067 1.1 skrll /* ARGSUSED */ 2068 1.1 skrll int 2069 1.1 skrll zynquart_kgdb_getc(void *arg) 2070 1.1 skrll { 2071 1.1 skrll struct zynquart_regs *regs = arg; 2072 1.1 skrll 2073 1.1 skrll return (zynquart_common_getc(NODEV, regs)); 2074 1.1 skrll } 2075 1.1 skrll 2076 1.1 skrll /* ARGSUSED */ 2077 1.1 skrll void 2078 1.1 skrll zynquart_kgdb_putc(void *arg, int c) 2079 1.1 skrll { 2080 1.1 skrll struct zynquart_regs *regs = arg; 2081 1.1 skrll 2082 1.1 skrll zynquart_common_putc(NODEV, regs, c); 2083 1.1 skrll } 2084 1.1 skrll #endif /* KGDB */ 2085 1.1 skrll 2086 1.1 skrll /* helper function to identify the zynquart ports used by 2087 1.1 skrll console or KGDB (and not yet autoconf attached) */ 2088 1.1 skrll int 2089 1.1 skrll zynquart_is_console(bus_space_tag_t iot, bus_addr_t iobase, bus_space_handle_t *ioh) 2090 1.1 skrll { 2091 1.1 skrll bus_space_handle_t help; 2092 1.1 skrll 2093 1.1 skrll if (!zynquartconsattached && 2094 1.1 skrll iot == zynquartconsregs.ur_iot && iobase == zynquartconsregs.ur_iobase) 2095 1.1 skrll help = zynquartconsregs.ur_ioh; 2096 1.1 skrll #ifdef KGDB 2097 1.1 skrll else if (!zynquart_kgdb_attached && 2098 1.1 skrll iot == zynquart_kgdb_regs.ur_iot && iobase == zynquart_kgdb_regs.ur_iobase) 2099 1.1 skrll help = zynquart_kgdb_regs.ur_ioh; 2100 1.1 skrll #endif 2101 1.1 skrll else 2102 1.1 skrll return (0); 2103 1.1 skrll 2104 1.1 skrll if (ioh) 2105 1.1 skrll *ioh = help; 2106 1.1 skrll return (1); 2107 1.1 skrll } 2108 1.1 skrll 2109 1.1 skrll #ifdef notyet 2110 1.1 skrll 2111 1.1 skrll bool 2112 1.1 skrll zynquart_cleanup(device_t self, int how) 2113 1.1 skrll { 2114 1.1 skrll /* 2115 1.1 skrll * this routine exists to serve as a shutdown hook for systems that 2116 1.1 skrll * have firmware which doesn't interact properly with a zynquart device in 2117 1.1 skrll * FIFO mode. 2118 1.1 skrll */ 2119 1.1 skrll struct zynquart_softc *sc = device_private(self); 2120 1.1 skrll 2121 1.1 skrll if (ISSET(sc->sc_hwflags, ZYNQUART_HW_FIFO)) 2122 1.1 skrll UR_WRITE_1(&sc->sc_regs, ZYNQUART_REG_FIFO, 0); 2123 1.1 skrll 2124 1.1 skrll return true; 2125 1.1 skrll } 2126 1.1 skrll #endif 2127 1.1 skrll 2128 1.1 skrll #ifdef notyet 2129 1.1 skrll bool 2130 1.1 skrll zynquart_suspend(device_t self PMF_FN_ARGS) 2131 1.1 skrll { 2132 1.1 skrll struct zynquart_softc *sc = device_private(self); 2133 1.1 skrll 2134 1.1 skrll UR_WRITE_1(&sc->sc_regs, ZYNQUART_REG_IER, 0); 2135 1.1 skrll (void)CSR_READ_1(&sc->sc_regs, ZYNQUART_REG_IIR); 2136 1.1 skrll 2137 1.1 skrll return true; 2138 1.1 skrll } 2139 1.1 skrll #endif 2140 1.1 skrll 2141 1.1 skrll #ifdef notyet 2142 1.1 skrll bool 2143 1.1 skrll zynquart_resume(device_t self PMF_FN_ARGS) 2144 1.1 skrll { 2145 1.1 skrll struct zynquart_softc *sc = device_private(self); 2146 1.1 skrll 2147 1.1 skrll mutex_spin_enter(&sc->sc_lock); 2148 1.1 skrll zynquart_loadchannelregs(sc); 2149 1.1 skrll mutex_spin_exit(&sc->sc_lock); 2150 1.1 skrll 2151 1.1 skrll return true; 2152 1.1 skrll } 2153 1.1 skrll #endif 2154 1.1 skrll 2155 1.1 skrll static void 2156 1.1 skrll zynquart_enable_debugport(struct zynquart_softc *sc) 2157 1.1 skrll { 2158 1.1 skrll /* bus_space_tag_t iot = sc->sc_regs.ur_iot; */ 2159 1.1 skrll /* bus_space_handle_t ioh = sc->sc_regs.ur_ioh; */ 2160 1.1 skrll } 2161 1.1 skrll 2162 1.1 skrll 2163 1.1 skrll void 2164 1.1 skrll zynquart_set_frequency(u_int freq, u_int div) 2165 1.1 skrll { 2166 1.1 skrll zynquart_freq = freq; 2167 1.1 skrll zynquart_freqdiv = div; 2168 1.1 skrll } 2169
Indexes created Tue Sep 23 14:10:03 GMT 2025