umcs.c revision 1.8.2.1
1 1.8.2.1 skrll /* $NetBSD: umcs.c,v 1.8.2.1 2014/12/06 08:27:23 skrll Exp $ */ 2 1.1 martin /* $FreeBSD: head/sys/dev/usb/serial/umcs.c 260559 2014-01-12 11:44:28Z hselasky $ */ 3 1.1 martin 4 1.1 martin /*- 5 1.1 martin * Copyright (c) 2010 Lev Serebryakov <lev (at) FreeBSD.org>. 6 1.1 martin * All rights reserved. 7 1.1 martin * 8 1.1 martin * Redistribution and use in source and binary forms, with or without 9 1.1 martin * modification, are permitted provided that the following conditions 10 1.1 martin * are met: 11 1.1 martin * 1. Redistributions of source code must retain the above copyright 12 1.1 martin * notice, this list of conditions and the following disclaimer. 13 1.1 martin * 2. Redistributions in binary form must reproduce the above copyright 14 1.1 martin * notice, this list of conditions and the following disclaimer in the 15 1.1 martin * documentation and/or other materials provided with the distribution. 16 1.1 martin * 17 1.1 martin * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 18 1.1 martin * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 19 1.1 martin * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 20 1.1 martin * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 21 1.1 martin * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 22 1.1 martin * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 23 1.1 martin * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 24 1.1 martin * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 25 1.1 martin * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 26 1.1 martin * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 27 1.1 martin * SUCH DAMAGE. 28 1.1 martin */ 29 1.1 martin 30 1.1 martin /* 31 1.1 martin * This driver supports several multiport USB-to-RS232 serial adapters driven 32 1.1 martin * by MosChip mos7820 and mos7840, bridge chips. 33 1.1 martin * The adapters are sold under many different brand names. 34 1.1 martin * 35 1.1 martin * Datasheets are available at MosChip www site at 36 1.1 martin * http://www.moschip.com. The datasheets don't contain full 37 1.1 martin * programming information for the chip. 38 1.1 martin * 39 1.1 martin * It is nornal to have only two enabled ports in devices, based on 40 1.1 martin * quad-port mos7840. 41 1.1 martin * 42 1.1 martin */ 43 1.1 martin #include <sys/cdefs.h> 44 1.8.2.1 skrll __KERNEL_RCSID(0, "$NetBSD: umcs.c,v 1.8.2.1 2014/12/06 08:27:23 skrll Exp $"); 45 1.1 martin 46 1.1 martin #include <sys/param.h> 47 1.1 martin #include <sys/systm.h> 48 1.1 martin #include <sys/atomic.h> 49 1.1 martin #include <sys/kernel.h> 50 1.1 martin #include <sys/conf.h> 51 1.1 martin #include <sys/tty.h> 52 1.1 martin #include <sys/device.h> 53 1.3 martin #include <sys/kmem.h> 54 1.1 martin 55 1.1 martin #include <dev/usb/usb.h> 56 1.1 martin #include <dev/usb/usbdi.h> 57 1.1 martin #include <dev/usb/usbdi_util.h> 58 1.1 martin #include <dev/usb/usbdevs.h> 59 1.1 martin 60 1.1 martin #include <dev/usb/usbdevs.h> 61 1.1 martin #include <dev/usb/ucomvar.h> 62 1.1 martin 63 1.1 martin #include "umcs.h" 64 1.1 martin 65 1.1 martin #if 0 66 1.1 martin #define DPRINTF(ARG) printf ARG 67 1.1 martin #else 68 1.1 martin #define DPRINTF(ARG) 69 1.1 martin #endif 70 1.1 martin 71 1.1 martin /* 72 1.1 martin * Two-port devices (both with 7820 chip and 7840 chip configured as two-port) 73 1.1 martin * have ports 0 and 2, with ports 1 and 3 omitted. 74 1.1 martin * So, PHYSICAL port numbers on two-port device will be 0 and 2. 75 1.1 martin * 76 1.1 martin * We use an array of the following struct, indexed by ucom port index, 77 1.1 martin * and include the physical port number in it. 78 1.1 martin */ 79 1.1 martin struct umcs7840_softc_oneport { 80 1.1 martin device_t sc_port_ucom; /* ucom subdevice */ 81 1.1 martin unsigned int sc_port_phys; /* physical port number */ 82 1.1 martin uint8_t sc_port_lcr; /* local line control register */ 83 1.1 martin uint8_t sc_port_mcr; /* local modem control register */ 84 1.1 martin }; 85 1.1 martin 86 1.1 martin struct umcs7840_softc { 87 1.1 martin device_t sc_dev; /* ourself */ 88 1.1 martin usbd_interface_handle sc_iface; /* the usb interface */ 89 1.1 martin usbd_device_handle sc_udev; /* the usb device */ 90 1.1 martin usbd_pipe_handle sc_intr_pipe; /* interrupt pipe */ 91 1.1 martin uint8_t *sc_intr_buf; /* buffer for interrupt xfer */ 92 1.3 martin unsigned int sc_intr_buflen; /* size of buffer */ 93 1.5 martin struct usb_task sc_change_task; /* async status changes */ 94 1.6 riastrad volatile uint32_t sc_change_mask; /* mask of port changes */ 95 1.1 martin struct umcs7840_softc_oneport sc_ports[UMCS7840_MAX_PORTS]; 96 1.1 martin /* data for each port */ 97 1.1 martin uint8_t sc_numports; /* number of ports (subunits) */ 98 1.1 martin bool sc_init_done; /* special one time init in open */ 99 1.1 martin bool sc_dying; /* we have been deactivated */ 100 1.1 martin }; 101 1.1 martin 102 1.8.2.1 skrll static int umcs7840_get_reg(struct umcs7840_softc *, uint8_t, uint8_t *); 103 1.8.2.1 skrll static int umcs7840_set_reg(struct umcs7840_softc *, uint8_t, uint8_t); 104 1.8.2.1 skrll static int umcs7840_get_UART_reg(struct umcs7840_softc *, uint8_t, uint8_t, uint8_t *); 105 1.8.2.1 skrll static int umcs7840_set_UART_reg(struct umcs7840_softc *, uint8_t, uint8_t, uint8_t ); 106 1.8.2.1 skrll static int umcs7840_calc_baudrate(uint32_t, uint16_t *, uint8_t *); 107 1.8.2.1 skrll static void umcs7840_dtr(struct umcs7840_softc *, int, bool); 108 1.8.2.1 skrll static void umcs7840_rts(struct umcs7840_softc *, int, bool); 109 1.8.2.1 skrll static void umcs7840_break(struct umcs7840_softc *, int, bool ); 110 1.1 martin 111 1.1 martin static int umcs7840_match(device_t, cfdata_t, void *); 112 1.1 martin static void umcs7840_attach(device_t, device_t, void *); 113 1.1 martin static int umcs7840_detach(device_t, int); 114 1.8.2.1 skrll static void umcs7840_intr(usbd_xfer_handle, usbd_private_handle, usbd_status); 115 1.5 martin static void umcs7840_change_task(void *arg); 116 1.8.2.1 skrll static int umcs7840_activate(device_t, enum devact); 117 1.1 martin static void umcs7840_childdet(device_t, device_t); 118 1.1 martin 119 1.1 martin static void umcs7840_get_status(void *, int, u_char *, u_char *); 120 1.1 martin static void umcs7840_set(void *, int, int, int); 121 1.1 martin static int umcs7840_param(void *, int, struct termios *); 122 1.8.2.1 skrll static int umcs7840_port_open(void *, int); 123 1.8.2.1 skrll static void umcs7840_port_close(void *, int); 124 1.1 martin 125 1.1 martin struct ucom_methods umcs7840_methods = { 126 1.2 martin .ucom_get_status = umcs7840_get_status, 127 1.2 martin .ucom_set = umcs7840_set, 128 1.2 martin .ucom_param = umcs7840_param, 129 1.2 martin .ucom_open = umcs7840_port_open, 130 1.2 martin .ucom_close = umcs7840_port_close, 131 1.1 martin }; 132 1.1 martin 133 1.1 martin static const struct usb_devno umcs7840_devs[] = { 134 1.1 martin { USB_VENDOR_MOSCHIP, USB_PRODUCT_MOSCHIP_MCS7703 }, 135 1.1 martin { USB_VENDOR_MOSCHIP, USB_PRODUCT_MOSCHIP_MCS7810 }, 136 1.1 martin { USB_VENDOR_MOSCHIP, USB_PRODUCT_MOSCHIP_MCS7820 }, 137 1.1 martin { USB_VENDOR_MOSCHIP, USB_PRODUCT_MOSCHIP_MCS7840 }, 138 1.1 martin { USB_VENDOR_ATEN, USB_PRODUCT_ATEN_UC2324 } 139 1.1 martin }; 140 1.1 martin #define umcs7840_lookup(v, p) usb_lookup(umcs7840_devs, v, p) 141 1.1 martin 142 1.1 martin CFATTACH_DECL2_NEW(umcs, sizeof(struct umcs7840_softc), umcs7840_match, 143 1.1 martin umcs7840_attach, umcs7840_detach, umcs7840_activate, NULL, 144 1.1 martin umcs7840_childdet); 145 1.1 martin 146 1.1 martin static inline int 147 1.1 martin umcs7840_reg_sp(int phyport) 148 1.1 martin { 149 1.1 martin KASSERT(phyport >= 0 && phyport < 4); 150 1.1 martin switch (phyport) { 151 1.1 martin default: 152 1.1 martin case 0: return MCS7840_DEV_REG_SP1; 153 1.1 martin case 1: return MCS7840_DEV_REG_SP2; 154 1.1 martin case 2: return MCS7840_DEV_REG_SP3; 155 1.1 martin case 3: return MCS7840_DEV_REG_SP4; 156 1.1 martin } 157 1.1 martin } 158 1.1 martin 159 1.1 martin static inline int 160 1.1 martin umcs7840_reg_ctrl(int phyport) 161 1.1 martin { 162 1.1 martin KASSERT(phyport >= 0 && phyport < 4); 163 1.1 martin switch (phyport) { 164 1.1 martin default: 165 1.1 martin case 0: return MCS7840_DEV_REG_CONTROL1; 166 1.1 martin case 1: return MCS7840_DEV_REG_CONTROL2; 167 1.1 martin case 2: return MCS7840_DEV_REG_CONTROL3; 168 1.1 martin case 3: return MCS7840_DEV_REG_CONTROL4; 169 1.1 martin } 170 1.1 martin } 171 1.1 martin 172 1.1 martin static int 173 1.1 martin umcs7840_match(device_t dev, cfdata_t match, void *aux) 174 1.1 martin { 175 1.1 martin struct usb_attach_arg *uaa = aux; 176 1.1 martin 177 1.1 martin return (umcs7840_lookup(uaa->vendor, uaa->product) != NULL ? 178 1.1 martin UMATCH_VENDOR_PRODUCT : UMATCH_NONE); 179 1.1 martin } 180 1.1 martin 181 1.1 martin static void 182 1.1 martin umcs7840_attach(device_t parent, device_t self, void * aux) 183 1.1 martin { 184 1.1 martin struct umcs7840_softc *sc = device_private(self); 185 1.1 martin struct usb_attach_arg *uaa = aux; 186 1.1 martin usbd_device_handle dev = uaa->device; 187 1.1 martin usb_interface_descriptor_t *id; 188 1.1 martin usb_endpoint_descriptor_t *ed; 189 1.1 martin char *devinfop; 190 1.1 martin struct ucom_attach_args uca; 191 1.1 martin int error, i, intr_addr; 192 1.1 martin uint8_t data; 193 1.1 martin 194 1.1 martin sc->sc_dev = self; 195 1.1 martin sc->sc_udev = uaa->device; 196 1.1 martin 197 1.1 martin if (usbd_set_config_index(sc->sc_udev, MCS7840_CONFIG_INDEX, 1) != 0) { 198 1.1 martin aprint_error(": could not set configuration no\n"); 199 1.1 martin return; 200 1.1 martin } 201 1.1 martin 202 1.1 martin /* get the first interface handle */ 203 1.1 martin error = usbd_device2interface_handle(sc->sc_udev, MCS7840_IFACE_INDEX, 204 1.1 martin &sc->sc_iface); 205 1.1 martin if (error != 0) { 206 1.1 martin aprint_error(": could not get interface handle\n"); 207 1.1 martin return; 208 1.1 martin } 209 1.1 martin 210 1.1 martin /* 211 1.1 martin * Get number of ports 212 1.1 martin * Documentation (full datasheet) says, that number of ports is 213 1.1 martin * set as MCS7840_DEV_MODE_SELECT24S bit in MODE R/Only 214 1.1 martin * register. But vendor driver uses these undocumented 215 1.1 martin * register & bit. 216 1.1 martin * 217 1.1 martin * Experiments show, that MODE register can have `0' 218 1.1 martin * (4 ports) bit on 2-port device, so use vendor driver's way. 219 1.1 martin * 220 1.1 martin * Also, see notes in header file for these constants. 221 1.1 martin */ 222 1.1 martin umcs7840_get_reg(sc, MCS7840_DEV_REG_GPIO, &data); 223 1.1 martin if (data & MCS7840_DEV_GPIO_4PORTS) { 224 1.1 martin sc->sc_numports = 4; 225 1.1 martin /* physical port no are : 0, 1, 2, 3 */ 226 1.1 martin } else { 227 1.1 martin if (uaa->product == USB_PRODUCT_MOSCHIP_MCS7810) 228 1.1 martin sc->sc_numports = 1; 229 1.1 martin else { 230 1.1 martin sc->sc_numports = 2; 231 1.1 martin /* physical port no are : 0 and 2 */ 232 1.1 martin } 233 1.1 martin } 234 1.1 martin devinfop = usbd_devinfo_alloc(dev, 0); 235 1.1 martin aprint_normal(": %s\n", devinfop); 236 1.1 martin usbd_devinfo_free(devinfop); 237 1.1 martin aprint_verbose_dev(self, "found %d active ports\n", sc->sc_numports); 238 1.1 martin 239 1.1 martin if (!umcs7840_get_reg(sc, MCS7840_DEV_REG_MODE, &data)) { 240 1.1 martin aprint_verbose_dev(self, "On-die confguration: RST: active %s, " 241 1.1 martin "HRD: %s, PLL: %s, POR: %s, Ports: %s, EEPROM write %s, " 242 1.1 martin "IrDA is %savailable\n", 243 1.1 martin (data & MCS7840_DEV_MODE_RESET) ? "low" : "high", 244 1.1 martin (data & MCS7840_DEV_MODE_SER_PRSNT) ? "yes" : "no", 245 1.1 martin (data & MCS7840_DEV_MODE_PLLBYPASS) ? "bypassed" : "avail", 246 1.1 martin (data & MCS7840_DEV_MODE_PORBYPASS) ? "bypassed" : "avail", 247 1.1 martin (data & MCS7840_DEV_MODE_SELECT24S) ? "2" : "4", 248 1.1 martin (data & MCS7840_DEV_MODE_EEPROMWR) ? "enabled" : "disabled", 249 1.1 martin (data & MCS7840_DEV_MODE_IRDA) ? "" : "not "); 250 1.1 martin } 251 1.1 martin 252 1.1 martin /* 253 1.1 martin * Set up the interrupt pipe 254 1.1 martin */ 255 1.1 martin id = usbd_get_interface_descriptor(sc->sc_iface); 256 1.1 martin intr_addr = -1; 257 1.1 martin for (i = 0 ; i < id->bNumEndpoints ; i++) { 258 1.1 martin ed = usbd_interface2endpoint_descriptor(sc->sc_iface, i); 259 1.1 martin if (ed == NULL) continue; 260 1.1 martin if (UE_GET_DIR(ed->bEndpointAddress) != UE_DIR_IN 261 1.1 martin || UE_GET_XFERTYPE(ed->bmAttributes) != UE_INTERRUPT) 262 1.1 martin continue; 263 1.3 martin sc->sc_intr_buflen = UGETW(ed->wMaxPacketSize); 264 1.1 martin intr_addr = ed->bEndpointAddress; 265 1.1 martin break; 266 1.1 martin } 267 1.1 martin if (intr_addr < 0) { 268 1.1 martin aprint_error_dev(self, "interrupt pipe not found\n"); 269 1.1 martin return; 270 1.1 martin } 271 1.3 martin sc->sc_intr_buf = kmem_alloc(sc->sc_intr_buflen, KM_SLEEP); 272 1.1 martin 273 1.1 martin error = usbd_open_pipe_intr(sc->sc_iface, intr_addr, 274 1.1 martin USBD_SHORT_XFER_OK, &sc->sc_intr_pipe, sc, sc->sc_intr_buf, 275 1.3 martin sc->sc_intr_buflen, umcs7840_intr, 100); 276 1.1 martin if (error) { 277 1.1 martin aprint_error_dev(self, "cannot open interrupt pipe " 278 1.1 martin "(addr %d)\n", intr_addr); 279 1.1 martin return; 280 1.1 martin } 281 1.1 martin 282 1.5 martin usb_init_task(&sc->sc_change_task, umcs7840_change_task, sc, 283 1.5 martin USB_TASKQ_MPSAFE); 284 1.1 martin 285 1.1 martin usbd_add_drv_event(USB_EVENT_DRIVER_ATTACH, sc->sc_udev, 286 1.1 martin sc->sc_dev); 287 1.1 martin 288 1.1 martin memset(&uca, 0, sizeof uca); 289 1.1 martin uca.ibufsize = 256; 290 1.1 martin uca.obufsize = 256; 291 1.1 martin uca.ibufsizepad = 256; 292 1.1 martin uca.opkthdrlen = 0; 293 1.1 martin uca.device = sc->sc_udev; 294 1.1 martin uca.iface = sc->sc_iface; 295 1.1 martin uca.methods = &umcs7840_methods; 296 1.1 martin uca.arg = sc; 297 1.1 martin 298 1.1 martin for (i = 0; i < sc->sc_numports; i++) { 299 1.1 martin uca.bulkin = uca.bulkout = -1; 300 1.1 martin 301 1.1 martin /* 302 1.1 martin * On four port cards, endpoints are 0/1 for first, 303 1.1 martin * 2/3 for second, ... 304 1.1 martin * On two port cards, they are 0/1 for first, 4/5 for second. 305 1.1 martin * On single port, just 0/1 will be used. 306 1.1 martin */ 307 1.1 martin int phyport = i * (sc->sc_numports == 2 ? 2 : 1); 308 1.1 martin 309 1.1 martin ed = usbd_interface2endpoint_descriptor(sc->sc_iface, 310 1.1 martin phyport*2); 311 1.1 martin if (ed == NULL) { 312 1.1 martin aprint_error_dev(self, 313 1.1 martin "no bulk in endpoint found for %d\n", i); 314 1.1 martin return; 315 1.1 martin } 316 1.1 martin uca.bulkin = ed->bEndpointAddress; 317 1.1 martin 318 1.1 martin ed = usbd_interface2endpoint_descriptor(sc->sc_iface, 319 1.1 martin phyport*2 + 1); 320 1.1 martin if (ed == NULL) { 321 1.1 martin aprint_error_dev(self, 322 1.1 martin "no bulk out endpoint found for %d\n", i); 323 1.1 martin return; 324 1.1 martin } 325 1.1 martin uca.bulkout = ed->bEndpointAddress; 326 1.1 martin uca.portno = i; 327 1.1 martin DPRINTF(("port %d physical port %d bulk-in %d bulk-out %d\n", 328 1.1 martin i, phyport, uca.bulkin, uca.bulkout)); 329 1.1 martin 330 1.1 martin sc->sc_ports[i].sc_port_phys = phyport; 331 1.1 martin sc->sc_ports[i].sc_port_ucom = 332 1.1 martin config_found_sm_loc(self, "ucombus", NULL, &uca, 333 1.1 martin ucomprint, ucomsubmatch); 334 1.1 martin } 335 1.1 martin } 336 1.1 martin 337 1.1 martin static int 338 1.1 martin umcs7840_get_reg(struct umcs7840_softc *sc, uint8_t reg, uint8_t *data) 339 1.1 martin { 340 1.1 martin usb_device_request_t req; 341 1.1 martin int err; 342 1.1 martin 343 1.1 martin req.bmRequestType = UT_READ_VENDOR_DEVICE; 344 1.1 martin req.bRequest = MCS7840_RDREQ; 345 1.1 martin USETW(req.wValue, 0); 346 1.1 martin USETW(req.wIndex, reg); 347 1.1 martin USETW(req.wLength, UMCS7840_READ_LENGTH); 348 1.1 martin 349 1.1 martin err = usbd_do_request(sc->sc_udev, &req, data); 350 1.1 martin if (err) 351 1.1 martin aprint_normal_dev(sc->sc_dev, 352 1.1 martin "Reading register %d failed: %s\n", reg, usbd_errstr(err)); 353 1.1 martin return err; 354 1.1 martin } 355 1.1 martin 356 1.1 martin static int 357 1.1 martin umcs7840_set_reg(struct umcs7840_softc *sc, uint8_t reg, uint8_t data) 358 1.1 martin { 359 1.1 martin usb_device_request_t req; 360 1.1 martin int err; 361 1.1 martin 362 1.1 martin req.bmRequestType = UT_WRITE_VENDOR_DEVICE; 363 1.1 martin req.bRequest = MCS7840_WRREQ; 364 1.1 martin USETW(req.wValue, data); 365 1.1 martin USETW(req.wIndex, reg); 366 1.1 martin USETW(req.wLength, 0); 367 1.1 martin 368 1.1 martin err = usbd_do_request(sc->sc_udev, &req, 0); 369 1.1 martin if (err) 370 1.1 martin aprint_normal_dev(sc->sc_dev, "Writing register %d failed: %s\n", reg, usbd_errstr(err)); 371 1.1 martin 372 1.1 martin return err; 373 1.1 martin } 374 1.1 martin 375 1.1 martin static int 376 1.1 martin umcs7840_get_UART_reg(struct umcs7840_softc *sc, uint8_t portno, 377 1.1 martin uint8_t reg, uint8_t *data) 378 1.1 martin { 379 1.1 martin usb_device_request_t req; 380 1.1 martin uint16_t wVal; 381 1.1 martin int err; 382 1.1 martin 383 1.1 martin /* portno is port number */ 384 1.1 martin wVal = ((uint16_t)(portno + 1)) << 8; 385 1.1 martin 386 1.1 martin req.bmRequestType = UT_READ_VENDOR_DEVICE; 387 1.1 martin req.bRequest = MCS7840_RDREQ; 388 1.1 martin USETW(req.wValue, wVal); 389 1.1 martin USETW(req.wIndex, reg); 390 1.1 martin USETW(req.wLength, UMCS7840_READ_LENGTH); 391 1.1 martin 392 1.1 martin err = usbd_do_request(sc->sc_udev, &req, data); 393 1.1 martin if (err) 394 1.1 martin aprint_normal_dev(sc->sc_dev, "Reading UART %d register %d failed: %s\n", portno, reg, usbd_errstr(err)); 395 1.1 martin return err; 396 1.1 martin } 397 1.1 martin 398 1.1 martin static int 399 1.1 martin umcs7840_set_UART_reg(struct umcs7840_softc *sc, uint8_t portno, uint8_t reg, uint8_t data) 400 1.1 martin { 401 1.1 martin usb_device_request_t req; 402 1.1 martin int err; 403 1.1 martin uint16_t wVal; 404 1.1 martin 405 1.1 martin /* portno is the physical port number */ 406 1.1 martin wVal = ((uint16_t)(portno + 1)) << 8 | data; 407 1.1 martin 408 1.1 martin req.bmRequestType = UT_WRITE_VENDOR_DEVICE; 409 1.1 martin req.bRequest = MCS7840_WRREQ; 410 1.1 martin USETW(req.wValue, wVal); 411 1.1 martin USETW(req.wIndex, reg); 412 1.1 martin USETW(req.wLength, 0); 413 1.1 martin 414 1.1 martin err = usbd_do_request(sc->sc_udev, &req, NULL); 415 1.1 martin if (err) 416 1.3 martin aprint_error_dev(sc->sc_dev, 417 1.3 martin "Writing UART %d register %d failed: %s\n", 418 1.3 martin portno, reg, usbd_errstr(err)); 419 1.1 martin return err; 420 1.1 martin } 421 1.1 martin 422 1.1 martin static int 423 1.8 martin umcs7840_set_baudrate(struct umcs7840_softc *sc, uint8_t portno, 424 1.8 martin uint32_t rate) 425 1.1 martin { 426 1.1 martin int err; 427 1.1 martin uint16_t divisor; 428 1.1 martin uint8_t clk; 429 1.1 martin uint8_t data; 430 1.1 martin uint8_t physport = sc->sc_ports[portno].sc_port_phys; 431 1.1 martin int spreg = umcs7840_reg_sp(physport); 432 1.1 martin 433 1.1 martin if (umcs7840_calc_baudrate(rate, &divisor, &clk)) { 434 1.1 martin DPRINTF(("Port %d bad speed: %d\n", portno, rate)); 435 1.1 martin return (-1); 436 1.1 martin } 437 1.1 martin if (divisor == 0 || (clk & MCS7840_DEV_SPx_CLOCK_MASK) != clk) { 438 1.8 martin DPRINTF(("Port %d bad speed calculation: %d\n", portno, 439 1.8 martin rate)); 440 1.1 martin return (-1); 441 1.1 martin } 442 1.1 martin DPRINTF(("Port %d set speed: %d (%02x / %d)\n", portno, rate, clk, divisor)); 443 1.1 martin 444 1.1 martin /* Set clock source for standard BAUD frequences */ 445 1.1 martin err = umcs7840_get_reg(sc, spreg, &data); 446 1.1 martin if (err) 447 1.1 martin return err; 448 1.1 martin data &= MCS7840_DEV_SPx_CLOCK_MASK; 449 1.1 martin data |= clk; 450 1.1 martin err = umcs7840_set_reg(sc, spreg, data); 451 1.1 martin if (err) 452 1.1 martin return err; 453 1.1 martin 454 1.1 martin /* Set divider */ 455 1.1 martin sc->sc_ports[portno].sc_port_lcr |= MCS7840_UART_LCR_DIVISORS; 456 1.1 martin err = umcs7840_set_UART_reg(sc, physport, MCS7840_UART_REG_LCR, sc->sc_ports[portno].sc_port_lcr); 457 1.1 martin if (err) 458 1.1 martin return err; 459 1.1 martin 460 1.1 martin err = umcs7840_set_UART_reg(sc, physport, MCS7840_UART_REG_DLL, (uint8_t)(divisor & 0xff)); 461 1.1 martin if (err) 462 1.1 martin return err; 463 1.1 martin err = umcs7840_set_UART_reg(sc, physport, MCS7840_UART_REG_DLM, (uint8_t)((divisor >> 8) & 0xff)); 464 1.1 martin if (err) 465 1.1 martin return err; 466 1.1 martin 467 1.1 martin /* Turn off access to DLL/DLM registers of UART */ 468 1.1 martin sc->sc_ports[portno].sc_port_lcr &= ~MCS7840_UART_LCR_DIVISORS; 469 1.1 martin err = umcs7840_set_UART_reg(sc, physport, MCS7840_UART_REG_LCR, sc->sc_ports[portno].sc_port_lcr); 470 1.1 martin if (err) 471 1.1 martin return err; 472 1.1 martin return (0); 473 1.1 martin } 474 1.1 martin 475 1.1 martin static int 476 1.1 martin umcs7840_calc_baudrate(uint32_t rate, uint16_t *divisor, uint8_t *clk) 477 1.1 martin { 478 1.1 martin /* Maximum speeds for standard frequences, when PLL is not used */ 479 1.1 martin static const uint32_t umcs7840_baudrate_divisors[] = 480 1.1 martin {0, 115200, 230400, 403200, 460800, 806400, 921600, 481 1.1 martin 1572864, 3145728,}; 482 1.1 martin static const uint8_t umcs7840_baudrate_divisors_len = 483 1.1 martin __arraycount(umcs7840_baudrate_divisors); 484 1.1 martin uint8_t i = 0; 485 1.1 martin 486 1.1 martin if (rate > umcs7840_baudrate_divisors[umcs7840_baudrate_divisors_len - 1]) 487 1.1 martin return (-1); 488 1.1 martin 489 1.1 martin for (i = 0; i < umcs7840_baudrate_divisors_len - 1 490 1.1 martin && !(rate > umcs7840_baudrate_divisors[i] 491 1.1 martin && rate <= umcs7840_baudrate_divisors[i + 1]); ++i); 492 1.1 martin *divisor = umcs7840_baudrate_divisors[i + 1] / rate; 493 1.1 martin /* 0x00 .. 0x70 */ 494 1.1 martin *clk = i << MCS7840_DEV_SPx_CLOCK_SHIFT; 495 1.1 martin return (0); 496 1.1 martin } 497 1.1 martin 498 1.8.2.1 skrll static int 499 1.1 martin umcs7840_detach(device_t self, int flags) 500 1.1 martin { 501 1.1 martin struct umcs7840_softc *sc = device_private(self); 502 1.1 martin int rv = 0, i; 503 1.1 martin 504 1.4 martin sc->sc_dying = true; 505 1.3 martin 506 1.1 martin /* close interrupt pipe */ 507 1.1 martin if (sc->sc_intr_pipe != NULL) { 508 1.1 martin rv = usbd_abort_pipe(sc->sc_intr_pipe); 509 1.1 martin if (rv) 510 1.1 martin aprint_error_dev(sc->sc_dev, 511 1.1 martin "abort interrupt pipe failed: %s\n", 512 1.1 martin usbd_errstr(rv)); 513 1.1 martin rv = usbd_close_pipe(sc->sc_intr_pipe); 514 1.1 martin if (rv) 515 1.1 martin aprint_error_dev(sc->sc_dev, 516 1.3 martin "failed to close interrupt pipe: %s\n", 517 1.1 martin usbd_errstr(rv)); 518 1.3 martin kmem_free(sc->sc_intr_buf, sc->sc_intr_buflen); 519 1.1 martin sc->sc_intr_pipe = NULL; 520 1.1 martin } 521 1.5 martin usb_rem_task(sc->sc_udev, &sc->sc_change_task); 522 1.1 martin 523 1.4 martin /* detach children */ 524 1.4 martin for (i = 0; i < sc->sc_numports; i++) { 525 1.4 martin if (sc->sc_ports[i].sc_port_ucom) { 526 1.4 martin rv = config_detach(sc->sc_ports[i].sc_port_ucom, 527 1.4 martin flags); 528 1.4 martin if (rv) 529 1.4 martin break; 530 1.4 martin } 531 1.4 martin } 532 1.4 martin 533 1.1 martin usbd_add_drv_event(USB_EVENT_DRIVER_DETACH, sc->sc_udev, 534 1.1 martin sc->sc_dev); 535 1.1 martin 536 1.1 martin return rv; 537 1.1 martin } 538 1.1 martin 539 1.1 martin int 540 1.1 martin umcs7840_activate(device_t self, enum devact act) 541 1.1 martin { 542 1.1 martin struct umcs7840_softc *sc = device_private(self); 543 1.1 martin 544 1.1 martin switch (act) { 545 1.1 martin case DVACT_DEACTIVATE: 546 1.1 martin sc->sc_dying = true; 547 1.1 martin return 0; 548 1.1 martin default: 549 1.1 martin return EOPNOTSUPP; 550 1.1 martin } 551 1.1 martin } 552 1.1 martin 553 1.1 martin static void 554 1.1 martin umcs7840_childdet(device_t self, device_t child) 555 1.1 martin { 556 1.1 martin struct umcs7840_softc *sc = device_private(self); 557 1.1 martin int i; 558 1.1 martin 559 1.1 martin for (i = 0; i < sc->sc_numports; i++) { 560 1.1 martin if (child == sc->sc_ports[i].sc_port_ucom) { 561 1.1 martin sc->sc_ports[i].sc_port_ucom = NULL; 562 1.1 martin return; 563 1.1 martin } 564 1.1 martin } 565 1.1 martin } 566 1.1 martin 567 1.1 martin static void 568 1.1 martin umcs7840_get_status(void *self, int portno, u_char *lsr, u_char *msr) 569 1.1 martin { 570 1.1 martin struct umcs7840_softc *sc = self; 571 1.1 martin uint8_t pn = sc->sc_ports[portno].sc_port_phys; 572 1.1 martin uint8_t hw_lsr = 0; /* local line status register */ 573 1.1 martin uint8_t hw_msr = 0; /* local modem status register */ 574 1.1 martin 575 1.4 martin if (sc->sc_dying) 576 1.4 martin return; 577 1.4 martin 578 1.1 martin /* Read LSR & MSR */ 579 1.1 martin umcs7840_get_UART_reg(sc, pn, MCS7840_UART_REG_LSR, &hw_lsr); 580 1.1 martin umcs7840_get_UART_reg(sc, pn, MCS7840_UART_REG_MSR, &hw_msr); 581 1.1 martin 582 1.1 martin *lsr = hw_lsr; 583 1.1 martin *msr = hw_msr; 584 1.1 martin } 585 1.1 martin 586 1.1 martin static void 587 1.1 martin umcs7840_set(void *self, int portno, int reg, int onoff) 588 1.1 martin { 589 1.1 martin struct umcs7840_softc *sc = self; 590 1.1 martin 591 1.1 martin if (sc->sc_dying) 592 1.1 martin return; 593 1.1 martin 594 1.1 martin switch (reg) { 595 1.1 martin case UCOM_SET_DTR: 596 1.8 martin umcs7840_dtr(sc, portno, onoff); 597 1.1 martin break; 598 1.1 martin case UCOM_SET_RTS: 599 1.8 martin umcs7840_rts(sc, portno, onoff); 600 1.1 martin break; 601 1.1 martin case UCOM_SET_BREAK: 602 1.8 martin umcs7840_break(sc, portno, onoff); 603 1.1 martin break; 604 1.1 martin default: 605 1.1 martin break; 606 1.1 martin } 607 1.1 martin } 608 1.1 martin 609 1.1 martin static int 610 1.1 martin umcs7840_param(void *self, int portno, struct termios *t) 611 1.1 martin { 612 1.1 martin struct umcs7840_softc *sc = self; 613 1.1 martin int pn = sc->sc_ports[portno].sc_port_phys; 614 1.1 martin uint8_t lcr = sc->sc_ports[portno].sc_port_lcr; 615 1.1 martin uint8_t mcr = sc->sc_ports[portno].sc_port_mcr; 616 1.1 martin 617 1.1 martin if (t->c_cflag & CSTOPB) { 618 1.1 martin lcr |= MCS7840_UART_LCR_STOPB2; 619 1.1 martin } else { 620 1.1 martin lcr |= MCS7840_UART_LCR_STOPB1; 621 1.1 martin } 622 1.1 martin 623 1.1 martin lcr &= ~MCS7840_UART_LCR_PARITYMASK; 624 1.1 martin if (t->c_cflag & PARENB) { 625 1.1 martin lcr |= MCS7840_UART_LCR_PARITYON; 626 1.1 martin if (t->c_cflag & PARODD) { 627 1.1 martin lcr = MCS7840_UART_LCR_PARITYODD; 628 1.1 martin } else { 629 1.1 martin lcr = MCS7840_UART_LCR_PARITYEVEN; 630 1.1 martin } 631 1.1 martin } else { 632 1.1 martin lcr &= ~MCS7840_UART_LCR_PARITYON; 633 1.1 martin } 634 1.1 martin 635 1.1 martin lcr &= ~MCS7840_UART_LCR_DATALENMASK; 636 1.1 martin switch (t->c_cflag & CSIZE) { 637 1.1 martin case CS5: 638 1.1 martin lcr |= MCS7840_UART_LCR_DATALEN5; 639 1.1 martin break; 640 1.1 martin case CS6: 641 1.1 martin lcr |= MCS7840_UART_LCR_DATALEN6; 642 1.1 martin break; 643 1.1 martin case CS7: 644 1.1 martin lcr |= MCS7840_UART_LCR_DATALEN7; 645 1.1 martin break; 646 1.1 martin case CS8: 647 1.1 martin lcr |= MCS7840_UART_LCR_DATALEN8; 648 1.1 martin break; 649 1.1 martin } 650 1.1 martin 651 1.1 martin if (t->c_cflag & CRTSCTS) 652 1.1 martin mcr |= MCS7840_UART_MCR_CTSRTS; 653 1.1 martin else 654 1.1 martin mcr &= ~MCS7840_UART_MCR_CTSRTS; 655 1.1 martin 656 1.1 martin if (t->c_cflag & CLOCAL) 657 1.1 martin mcr &= ~MCS7840_UART_MCR_DTRDSR; 658 1.1 martin else 659 1.1 martin mcr |= MCS7840_UART_MCR_DTRDSR; 660 1.1 martin 661 1.1 martin sc->sc_ports[portno].sc_port_lcr = lcr; 662 1.1 martin umcs7840_set_UART_reg(sc, pn, MCS7840_UART_REG_LCR, 663 1.1 martin sc->sc_ports[pn].sc_port_lcr); 664 1.1 martin 665 1.1 martin sc->sc_ports[portno].sc_port_mcr = mcr; 666 1.1 martin umcs7840_set_UART_reg(sc, pn, MCS7840_UART_REG_MCR, 667 1.1 martin sc->sc_ports[pn].sc_port_mcr); 668 1.1 martin 669 1.8 martin if (umcs7840_set_baudrate(sc, portno, t->c_ospeed)) 670 1.1 martin return EIO; 671 1.1 martin 672 1.1 martin return 0; 673 1.1 martin } 674 1.1 martin 675 1.1 martin static void 676 1.1 martin umcs7840_dtr(struct umcs7840_softc *sc, int portno, bool onoff) 677 1.1 martin { 678 1.1 martin int pn = sc->sc_ports[portno].sc_port_phys; 679 1.1 martin uint8_t mcr = sc->sc_ports[portno].sc_port_mcr; 680 1.1 martin 681 1.1 martin if (onoff) 682 1.1 martin mcr |= MCS7840_UART_MCR_DTR; 683 1.1 martin else 684 1.1 martin mcr &= ~MCS7840_UART_MCR_DTR; 685 1.1 martin 686 1.1 martin sc->sc_ports[portno].sc_port_mcr = mcr; 687 1.1 martin umcs7840_set_UART_reg(sc, pn, MCS7840_UART_REG_MCR, 688 1.1 martin sc->sc_ports[pn].sc_port_mcr); 689 1.1 martin } 690 1.1 martin 691 1.1 martin static void 692 1.1 martin umcs7840_rts(struct umcs7840_softc *sc, int portno, bool onoff) 693 1.1 martin { 694 1.1 martin int pn = sc->sc_ports[portno].sc_port_phys; 695 1.1 martin uint8_t mcr = sc->sc_ports[portno].sc_port_mcr; 696 1.1 martin 697 1.1 martin if (onoff) 698 1.1 martin mcr |= MCS7840_UART_MCR_RTS; 699 1.1 martin else 700 1.1 martin mcr &= ~MCS7840_UART_MCR_RTS; 701 1.1 martin 702 1.1 martin sc->sc_ports[portno].sc_port_mcr = mcr; 703 1.1 martin umcs7840_set_UART_reg(sc, pn, MCS7840_UART_REG_MCR, 704 1.1 martin sc->sc_ports[pn].sc_port_mcr); 705 1.1 martin } 706 1.1 martin 707 1.1 martin static void 708 1.1 martin umcs7840_break(struct umcs7840_softc *sc, int portno, bool onoff) 709 1.1 martin { 710 1.1 martin int pn = sc->sc_ports[portno].sc_port_phys; 711 1.1 martin uint8_t lcr = sc->sc_ports[portno].sc_port_lcr; 712 1.1 martin 713 1.1 martin if (onoff) 714 1.1 martin lcr |= MCS7840_UART_LCR_BREAK; 715 1.1 martin else 716 1.1 martin lcr &= ~MCS7840_UART_LCR_BREAK; 717 1.1 martin 718 1.1 martin sc->sc_ports[portno].sc_port_lcr = lcr; 719 1.1 martin umcs7840_set_UART_reg(sc, pn, MCS7840_UART_REG_LCR, 720 1.1 martin sc->sc_ports[pn].sc_port_lcr); 721 1.1 martin } 722 1.1 martin 723 1.1 martin static int 724 1.1 martin umcs7840_port_open(void *self, int portno) 725 1.1 martin { 726 1.1 martin struct umcs7840_softc *sc = self; 727 1.1 martin int pn = sc->sc_ports[portno].sc_port_phys; 728 1.1 martin int spreg = umcs7840_reg_sp(pn); 729 1.1 martin int ctrlreg = umcs7840_reg_ctrl(pn); 730 1.1 martin uint8_t data; 731 1.1 martin 732 1.1 martin if (sc->sc_dying) 733 1.1 martin return EIO; 734 1.1 martin 735 1.1 martin /* If it very first open, finish global configuration */ 736 1.1 martin if (!sc->sc_init_done) { 737 1.1 martin if (umcs7840_get_reg(sc, MCS7840_DEV_REG_CONTROL1, &data)) 738 1.1 martin return EIO; 739 1.1 martin data |= MCS7840_DEV_CONTROL1_DRIVER_DONE; 740 1.1 martin if (umcs7840_set_reg(sc, MCS7840_DEV_REG_CONTROL1, data)) 741 1.1 martin return EIO; 742 1.1 martin sc->sc_init_done = 1; 743 1.1 martin } 744 1.1 martin 745 1.1 martin /* Toggle reset bit on-off */ 746 1.1 martin if (umcs7840_get_reg(sc, spreg, &data)) 747 1.1 martin return EIO; 748 1.1 martin data |= MCS7840_DEV_SPx_UART_RESET; 749 1.1 martin if (umcs7840_set_reg(sc, spreg, data)) 750 1.1 martin return EIO; 751 1.1 martin data &= ~MCS7840_DEV_SPx_UART_RESET; 752 1.1 martin if (umcs7840_set_reg(sc, spreg, data)) 753 1.1 martin return EIO; 754 1.1 martin 755 1.1 martin /* Set RS-232 mode */ 756 1.1 martin if (umcs7840_set_UART_reg(sc, pn, MCS7840_UART_REG_SCRATCHPAD, 757 1.1 martin MCS7840_UART_SCRATCHPAD_RS232)) 758 1.1 martin return EIO; 759 1.1 martin 760 1.1 martin /* Disable RX on time of initialization */ 761 1.1 martin if (umcs7840_get_reg(sc, ctrlreg, &data)) 762 1.1 martin return EIO; 763 1.1 martin data |= MCS7840_DEV_CONTROLx_RX_DISABLE; 764 1.1 martin if (umcs7840_set_reg(sc, ctrlreg, data)) 765 1.1 martin return EIO; 766 1.1 martin 767 1.1 martin /* Disable all interrupts */ 768 1.1 martin if (umcs7840_set_UART_reg(sc, pn, MCS7840_UART_REG_IER, 0)) 769 1.1 martin return EIO; 770 1.1 martin 771 1.1 martin /* Reset FIFO -- documented */ 772 1.1 martin if (umcs7840_set_UART_reg(sc, pn, MCS7840_UART_REG_FCR, 0)) 773 1.1 martin return EIO; 774 1.1 martin if (umcs7840_set_UART_reg(sc, pn, MCS7840_UART_REG_FCR, 775 1.1 martin MCS7840_UART_FCR_ENABLE | MCS7840_UART_FCR_FLUSHRHR | 776 1.1 martin MCS7840_UART_FCR_FLUSHTHR | MCS7840_UART_FCR_RTL_1_14)) 777 1.1 martin return EIO; 778 1.1 martin 779 1.1 martin /* Set 8 bit, no parity, 1 stop bit -- documented */ 780 1.1 martin sc->sc_ports[pn].sc_port_lcr = 781 1.1 martin MCS7840_UART_LCR_DATALEN8 | MCS7840_UART_LCR_STOPB1; 782 1.1 martin if (umcs7840_set_UART_reg(sc, pn, MCS7840_UART_REG_LCR, 783 1.1 martin sc->sc_ports[pn].sc_port_lcr)) 784 1.1 martin return EIO; 785 1.1 martin 786 1.1 martin /* 787 1.1 martin * Enable DTR/RTS on modem control, enable modem interrupts -- 788 1.1 martin * documented 789 1.1 martin */ 790 1.1 martin sc->sc_ports[pn].sc_port_mcr = MCS7840_UART_MCR_DTR 791 1.1 martin | MCS7840_UART_MCR_RTS | MCS7840_UART_MCR_IE; 792 1.1 martin if (umcs7840_set_UART_reg(sc, pn, MCS7840_UART_REG_MCR, 793 1.1 martin sc->sc_ports[pn].sc_port_mcr)) 794 1.1 martin return EIO; 795 1.1 martin 796 1.1 martin /* Clearing Bulkin and Bulkout FIFO */ 797 1.1 martin if (umcs7840_get_reg(sc, spreg, &data)) 798 1.1 martin return EIO; 799 1.1 martin data |= MCS7840_DEV_SPx_RESET_OUT_FIFO | MCS7840_DEV_SPx_RESET_IN_FIFO; 800 1.1 martin if (umcs7840_set_reg(sc, spreg, data)) 801 1.1 martin return EIO; 802 1.1 martin data &= ~(MCS7840_DEV_SPx_RESET_OUT_FIFO 803 1.1 martin | MCS7840_DEV_SPx_RESET_IN_FIFO); 804 1.1 martin if (umcs7840_set_reg(sc, spreg, data)) 805 1.1 martin return EIO; 806 1.1 martin 807 1.1 martin /* Set speed 9600 */ 808 1.8 martin if (umcs7840_set_baudrate(sc, portno, 9600)) 809 1.1 martin return EIO; 810 1.1 martin 811 1.1 martin 812 1.1 martin /* Finally enable all interrupts -- documented */ 813 1.1 martin /* 814 1.1 martin * Copied from vendor driver, I don't know why we should read LCR 815 1.1 martin * here 816 1.1 martin */ 817 1.1 martin if (umcs7840_get_UART_reg(sc, pn, MCS7840_UART_REG_LCR, 818 1.1 martin &sc->sc_ports[pn].sc_port_lcr)) 819 1.1 martin return EIO; 820 1.1 martin if (umcs7840_set_UART_reg(sc, pn, MCS7840_UART_REG_IER, 821 1.1 martin MCS7840_UART_IER_RXSTAT | MCS7840_UART_IER_MODEM)) 822 1.1 martin return EIO; 823 1.1 martin 824 1.1 martin /* Enable RX */ 825 1.1 martin if (umcs7840_get_reg(sc, ctrlreg, &data)) 826 1.1 martin return EIO; 827 1.1 martin data &= ~MCS7840_DEV_CONTROLx_RX_DISABLE; 828 1.1 martin if (umcs7840_set_reg(sc, ctrlreg, data)) 829 1.1 martin return EIO; 830 1.1 martin return 0; 831 1.1 martin } 832 1.1 martin 833 1.1 martin static void 834 1.1 martin umcs7840_port_close(void *self, int portno) 835 1.1 martin { 836 1.1 martin struct umcs7840_softc *sc = self; 837 1.1 martin int pn = sc->sc_ports[portno].sc_port_phys; 838 1.1 martin int ctrlreg = umcs7840_reg_ctrl(pn); 839 1.1 martin uint8_t data; 840 1.1 martin 841 1.4 martin if (sc->sc_dying) 842 1.4 martin return; 843 1.4 martin 844 1.1 martin umcs7840_set_UART_reg(sc, pn, MCS7840_UART_REG_MCR, 0); 845 1.1 martin umcs7840_set_UART_reg(sc, pn, MCS7840_UART_REG_IER, 0); 846 1.1 martin 847 1.1 martin /* Disable RX */ 848 1.1 martin if (umcs7840_get_reg(sc, ctrlreg, &data)) 849 1.1 martin return; 850 1.1 martin data |= MCS7840_DEV_CONTROLx_RX_DISABLE; 851 1.1 martin if (umcs7840_set_reg(sc, ctrlreg, data)) 852 1.1 martin return; 853 1.1 martin } 854 1.1 martin 855 1.1 martin static void 856 1.1 martin umcs7840_intr(usbd_xfer_handle xfer, usbd_private_handle priv, 857 1.1 martin usbd_status status) 858 1.1 martin { 859 1.1 martin struct umcs7840_softc *sc = priv; 860 1.1 martin u_char *buf = sc->sc_intr_buf; 861 1.1 martin int actlen; 862 1.5 martin int subunit; 863 1.1 martin 864 1.4 martin if (status == USBD_NOT_STARTED || status == USBD_CANCELLED 865 1.4 martin || status == USBD_IOERROR) 866 1.1 martin return; 867 1.1 martin 868 1.1 martin if (status != USBD_NORMAL_COMPLETION) { 869 1.1 martin aprint_error_dev(sc->sc_dev, 870 1.1 martin "umcs7840_intr: abnormal status: %s\n", 871 1.1 martin usbd_errstr(status)); 872 1.1 martin usbd_clear_endpoint_stall_async(sc->sc_intr_pipe); 873 1.1 martin return; 874 1.1 martin } 875 1.1 martin 876 1.1 martin usbd_get_xfer_status(xfer, NULL, NULL, &actlen, NULL); 877 1.1 martin if (actlen == 5 || actlen == 13) { 878 1.6 riastrad uint32_t change_mask = 0; 879 1.1 martin /* Check status of all ports */ 880 1.1 martin for (subunit = 0; subunit < sc->sc_numports; subunit++) { 881 1.1 martin uint8_t pn = sc->sc_ports[subunit].sc_port_phys; 882 1.1 martin if (buf[pn] & MCS7840_UART_ISR_NOPENDING) 883 1.1 martin continue; 884 1.1 martin DPRINTF(("Port %d has pending interrupt: %02x " 885 1.1 martin "(FIFO: %02x)\n", pn, 886 1.1 martin buf[pn] & MCS7840_UART_ISR_INTMASK, 887 1.1 martin buf[pn] & (~MCS7840_UART_ISR_INTMASK))); 888 1.1 martin switch (buf[pn] & MCS7840_UART_ISR_INTMASK) { 889 1.1 martin case MCS7840_UART_ISR_RXERR: 890 1.1 martin case MCS7840_UART_ISR_RXHASDATA: 891 1.1 martin case MCS7840_UART_ISR_RXTIMEOUT: 892 1.1 martin case MCS7840_UART_ISR_MSCHANGE: 893 1.6 riastrad change_mask |= (1U << subunit); 894 1.1 martin break; 895 1.1 martin default: 896 1.1 martin /* Do nothing */ 897 1.1 martin break; 898 1.1 martin } 899 1.1 martin } 900 1.5 martin 901 1.6 riastrad if (change_mask != 0) { 902 1.6 riastrad atomic_or_32(&sc->sc_change_mask, change_mask); 903 1.6 riastrad usb_add_task(sc->sc_udev, &sc->sc_change_task, 904 1.6 riastrad USB_TASKQ_DRIVER); 905 1.6 riastrad } 906 1.1 martin } else { 907 1.3 martin aprint_error_dev(sc->sc_dev, 908 1.3 martin "Invalid interrupt data length %d", actlen); 909 1.1 martin } 910 1.1 martin } 911 1.1 martin 912 1.1 martin static void 913 1.5 martin umcs7840_change_task(void *arg) 914 1.1 martin { 915 1.1 martin struct umcs7840_softc *sc = arg; 916 1.6 riastrad uint32_t change_mask; 917 1.1 martin int i; 918 1.1 martin 919 1.6 riastrad change_mask = atomic_swap_32(&sc->sc_change_mask, 0); 920 1.1 martin for (i = 0; i < sc->sc_numports; i++) { 921 1.6 riastrad if (ISSET(change_mask, (1U << i))) 922 1.1 martin ucom_status_change(device_private( 923 1.1 martin sc->sc_ports[i].sc_port_ucom)); 924 1.1 martin } 925 1.1 martin } 926
Indexes created Tue Sep 30 20:09:53 GMT 2025