1 /* 2 * QEMU USB OHCI Emulation 3 * Copyright (c) 2004 Gianni Tedesco 4 * Copyright (c) 2006 CodeSourcery 5 * Copyright (c) 2006 Openedhand Ltd. 6 * 7 * This library is free software; you can redistribute it and/or 8 * modify it under the terms of the GNU Lesser General Public 9 * License as published by the Free Software Foundation; either 10 * version 2.1 of the License, or (at your option) any later version. 11 * 12 * This library is distributed in the hope that it will be useful, 13 * but WITHOUT ANY WARRANTY; without even the implied warranty of 14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 15 * Lesser General Public License for more details. 16 * 17 * You should have received a copy of the GNU Lesser General Public 18 * License along with this library; if not, see <http://www.gnu.org/licenses/>. 19 * 20 * TODO: 21 * o Isochronous transfers 22 * o Allocate bandwidth in frames properly 23 * o Disable timers when nothing needs to be done, or remove timer usage 24 * all together. 25 * o BIOS work to boot from USB storage 26 */ 27 28 #include "qemu/osdep.h" 29 #include "hw/irq.h" 30 #include "qapi/error.h" 31 #include "qemu/module.h" 32 #include "qemu/timer.h" 33 #include "hw/usb.h" 34 #include "migration/vmstate.h" 35 #include "hw/sysbus.h" 36 #include "hw/qdev-dma.h" 37 #include "hw/qdev-properties.h" 38 #include "trace.h" 39 #include "hcd-ohci.h" 40 41 /* This causes frames to occur 1000x slower */ 42 //#define OHCI_TIME_WARP 1 43 44 #define ED_LINK_LIMIT 32 45 46 static int64_t usb_frame_time; 47 static int64_t usb_bit_time; 48 49 /* Host Controller Communications Area */ 50 struct ohci_hcca { 51 uint32_t intr[32]; 52 uint16_t frame, pad; 53 uint32_t done; 54 }; 55 #define HCCA_WRITEBACK_OFFSET offsetof(struct ohci_hcca, frame) 56 #define HCCA_WRITEBACK_SIZE 8 /* frame, pad, done */ 57 58 #define ED_WBACK_OFFSET offsetof(struct ohci_ed, head) 59 #define ED_WBACK_SIZE 4 60 61 static void ohci_async_cancel_device(OHCIState *ohci, USBDevice *dev); 62 63 /* Bitfields for the first word of an Endpoint Desciptor. */ 64 #define OHCI_ED_FA_SHIFT 0 65 #define OHCI_ED_FA_MASK (0x7f<<OHCI_ED_FA_SHIFT) 66 #define OHCI_ED_EN_SHIFT 7 67 #define OHCI_ED_EN_MASK (0xf<<OHCI_ED_EN_SHIFT) 68 #define OHCI_ED_D_SHIFT 11 69 #define OHCI_ED_D_MASK (3<<OHCI_ED_D_SHIFT) 70 #define OHCI_ED_S (1<<13) 71 #define OHCI_ED_K (1<<14) 72 #define OHCI_ED_F (1<<15) 73 #define OHCI_ED_MPS_SHIFT 16 74 #define OHCI_ED_MPS_MASK (0x7ff<<OHCI_ED_MPS_SHIFT) 75 76 /* Flags in the head field of an Endpoint Desciptor. */ 77 #define OHCI_ED_H 1 78 #define OHCI_ED_C 2 79 80 /* Bitfields for the first word of a Transfer Desciptor. */ 81 #define OHCI_TD_R (1<<18) 82 #define OHCI_TD_DP_SHIFT 19 83 #define OHCI_TD_DP_MASK (3<<OHCI_TD_DP_SHIFT) 84 #define OHCI_TD_DI_SHIFT 21 85 #define OHCI_TD_DI_MASK (7<<OHCI_TD_DI_SHIFT) 86 #define OHCI_TD_T0 (1<<24) 87 #define OHCI_TD_T1 (1<<25) 88 #define OHCI_TD_EC_SHIFT 26 89 #define OHCI_TD_EC_MASK (3<<OHCI_TD_EC_SHIFT) 90 #define OHCI_TD_CC_SHIFT 28 91 #define OHCI_TD_CC_MASK (0xf<<OHCI_TD_CC_SHIFT) 92 93 /* Bitfields for the first word of an Isochronous Transfer Desciptor. */ 94 /* CC & DI - same as in the General Transfer Desciptor */ 95 #define OHCI_TD_SF_SHIFT 0 96 #define OHCI_TD_SF_MASK (0xffff<<OHCI_TD_SF_SHIFT) 97 #define OHCI_TD_FC_SHIFT 24 98 #define OHCI_TD_FC_MASK (7<<OHCI_TD_FC_SHIFT) 99 100 /* Isochronous Transfer Desciptor - Offset / PacketStatusWord */ 101 #define OHCI_TD_PSW_CC_SHIFT 12 102 #define OHCI_TD_PSW_CC_MASK (0xf<<OHCI_TD_PSW_CC_SHIFT) 103 #define OHCI_TD_PSW_SIZE_SHIFT 0 104 #define OHCI_TD_PSW_SIZE_MASK (0xfff<<OHCI_TD_PSW_SIZE_SHIFT) 105 106 #define OHCI_PAGE_MASK 0xfffff000 107 #define OHCI_OFFSET_MASK 0xfff 108 109 #define OHCI_DPTR_MASK 0xfffffff0 110 111 #define OHCI_BM(val, field) \ 112 (((val) & OHCI_##field##_MASK) >> OHCI_##field##_SHIFT) 113 114 #define OHCI_SET_BM(val, field, newval) do { \ 115 val &= ~OHCI_##field##_MASK; \ 116 val |= ((newval) << OHCI_##field##_SHIFT) & OHCI_##field##_MASK; \ 117 } while(0) 118 119 /* endpoint descriptor */ 120 struct ohci_ed { 121 uint32_t flags; 122 uint32_t tail; 123 uint32_t head; 124 uint32_t next; 125 }; 126 127 /* General transfer descriptor */ 128 struct ohci_td { 129 uint32_t flags; 130 uint32_t cbp; 131 uint32_t next; 132 uint32_t be; 133 }; 134 135 /* Isochronous transfer descriptor */ 136 struct ohci_iso_td { 137 uint32_t flags; 138 uint32_t bp; 139 uint32_t next; 140 uint32_t be; 141 uint16_t offset[8]; 142 }; 143 144 #define USB_HZ 12000000 145 146 /* OHCI Local stuff */ 147 #define OHCI_CTL_CBSR ((1<<0)|(1<<1)) 148 #define OHCI_CTL_PLE (1<<2) 149 #define OHCI_CTL_IE (1<<3) 150 #define OHCI_CTL_CLE (1<<4) 151 #define OHCI_CTL_BLE (1<<5) 152 #define OHCI_CTL_HCFS ((1<<6)|(1<<7)) 153 #define OHCI_USB_RESET 0x00 154 #define OHCI_USB_RESUME 0x40 155 #define OHCI_USB_OPERATIONAL 0x80 156 #define OHCI_USB_SUSPEND 0xc0 157 #define OHCI_CTL_IR (1<<8) 158 #define OHCI_CTL_RWC (1<<9) 159 #define OHCI_CTL_RWE (1<<10) 160 161 #define OHCI_STATUS_HCR (1<<0) 162 #define OHCI_STATUS_CLF (1<<1) 163 #define OHCI_STATUS_BLF (1<<2) 164 #define OHCI_STATUS_OCR (1<<3) 165 #define OHCI_STATUS_SOC ((1<<6)|(1<<7)) 166 167 #define OHCI_INTR_SO (1U<<0) /* Scheduling overrun */ 168 #define OHCI_INTR_WD (1U<<1) /* HcDoneHead writeback */ 169 #define OHCI_INTR_SF (1U<<2) /* Start of frame */ 170 #define OHCI_INTR_RD (1U<<3) /* Resume detect */ 171 #define OHCI_INTR_UE (1U<<4) /* Unrecoverable error */ 172 #define OHCI_INTR_FNO (1U<<5) /* Frame number overflow */ 173 #define OHCI_INTR_RHSC (1U<<6) /* Root hub status change */ 174 #define OHCI_INTR_OC (1U<<30) /* Ownership change */ 175 #define OHCI_INTR_MIE (1U<<31) /* Master Interrupt Enable */ 176 177 #define OHCI_HCCA_SIZE 0x100 178 #define OHCI_HCCA_MASK 0xffffff00 179 180 #define OHCI_EDPTR_MASK 0xfffffff0 181 182 #define OHCI_FMI_FI 0x00003fff 183 #define OHCI_FMI_FSMPS 0xffff0000 184 #define OHCI_FMI_FIT 0x80000000 185 186 #define OHCI_FR_RT (1U<<31) 187 188 #define OHCI_LS_THRESH 0x628 189 190 #define OHCI_RHA_RW_MASK 0x00000000 /* Mask of supported features. */ 191 #define OHCI_RHA_PSM (1<<8) 192 #define OHCI_RHA_NPS (1<<9) 193 #define OHCI_RHA_DT (1<<10) 194 #define OHCI_RHA_OCPM (1<<11) 195 #define OHCI_RHA_NOCP (1<<12) 196 #define OHCI_RHA_POTPGT_MASK 0xff000000 197 198 #define OHCI_RHS_LPS (1U<<0) 199 #define OHCI_RHS_OCI (1U<<1) 200 #define OHCI_RHS_DRWE (1U<<15) 201 #define OHCI_RHS_LPSC (1U<<16) 202 #define OHCI_RHS_OCIC (1U<<17) 203 #define OHCI_RHS_CRWE (1U<<31) 204 205 #define OHCI_PORT_CCS (1<<0) 206 #define OHCI_PORT_PES (1<<1) 207 #define OHCI_PORT_PSS (1<<2) 208 #define OHCI_PORT_POCI (1<<3) 209 #define OHCI_PORT_PRS (1<<4) 210 #define OHCI_PORT_PPS (1<<8) 211 #define OHCI_PORT_LSDA (1<<9) 212 #define OHCI_PORT_CSC (1<<16) 213 #define OHCI_PORT_PESC (1<<17) 214 #define OHCI_PORT_PSSC (1<<18) 215 #define OHCI_PORT_OCIC (1<<19) 216 #define OHCI_PORT_PRSC (1<<20) 217 #define OHCI_PORT_WTC (OHCI_PORT_CSC|OHCI_PORT_PESC|OHCI_PORT_PSSC \ 218 |OHCI_PORT_OCIC|OHCI_PORT_PRSC) 219 220 #define OHCI_TD_DIR_SETUP 0x0 221 #define OHCI_TD_DIR_OUT 0x1 222 #define OHCI_TD_DIR_IN 0x2 223 #define OHCI_TD_DIR_RESERVED 0x3 224 225 #define OHCI_CC_NOERROR 0x0 226 #define OHCI_CC_CRC 0x1 227 #define OHCI_CC_BITSTUFFING 0x2 228 #define OHCI_CC_DATATOGGLEMISMATCH 0x3 229 #define OHCI_CC_STALL 0x4 230 #define OHCI_CC_DEVICENOTRESPONDING 0x5 231 #define OHCI_CC_PIDCHECKFAILURE 0x6 232 #define OHCI_CC_UNDEXPETEDPID 0x7 233 #define OHCI_CC_DATAOVERRUN 0x8 234 #define OHCI_CC_DATAUNDERRUN 0x9 235 #define OHCI_CC_BUFFEROVERRUN 0xc 236 #define OHCI_CC_BUFFERUNDERRUN 0xd 237 238 #define OHCI_HRESET_FSBIR (1 << 0) 239 240 static void ohci_die(OHCIState *ohci) 241 { 242 ohci->ohci_die(ohci); 243 } 244 245 /* Update IRQ levels */ 246 static inline void ohci_intr_update(OHCIState *ohci) 247 { 248 int level = 0; 249 250 if ((ohci->intr & OHCI_INTR_MIE) && 251 (ohci->intr_status & ohci->intr)) 252 level = 1; 253 254 qemu_set_irq(ohci->irq, level); 255 } 256 257 /* Set an interrupt */ 258 static inline void ohci_set_interrupt(OHCIState *ohci, uint32_t intr) 259 { 260 ohci->intr_status |= intr; 261 ohci_intr_update(ohci); 262 } 263 264 /* Attach or detach a device on a root hub port. */ 265 static void ohci_attach(USBPort *port1) 266 { 267 OHCIState *s = port1->opaque; 268 OHCIPort *port = &s->rhport[port1->index]; 269 uint32_t old_state = port->ctrl; 270 271 /* set connect status */ 272 port->ctrl |= OHCI_PORT_CCS | OHCI_PORT_CSC; 273 274 /* update speed */ 275 if (port->port.dev->speed == USB_SPEED_LOW) { 276 port->ctrl |= OHCI_PORT_LSDA; 277 } else { 278 port->ctrl &= ~OHCI_PORT_LSDA; 279 } 280 281 /* notify of remote-wakeup */ 282 if ((s->ctl & OHCI_CTL_HCFS) == OHCI_USB_SUSPEND) { 283 ohci_set_interrupt(s, OHCI_INTR_RD); 284 } 285 286 trace_usb_ohci_port_attach(port1->index); 287 288 if (old_state != port->ctrl) { 289 ohci_set_interrupt(s, OHCI_INTR_RHSC); 290 } 291 } 292 293 static void ohci_detach(USBPort *port1) 294 { 295 OHCIState *s = port1->opaque; 296 OHCIPort *port = &s->rhport[port1->index]; 297 uint32_t old_state = port->ctrl; 298 299 ohci_async_cancel_device(s, port1->dev); 300 301 /* set connect status */ 302 if (port->ctrl & OHCI_PORT_CCS) { 303 port->ctrl &= ~OHCI_PORT_CCS; 304 port->ctrl |= OHCI_PORT_CSC; 305 } 306 /* disable port */ 307 if (port->ctrl & OHCI_PORT_PES) { 308 port->ctrl &= ~OHCI_PORT_PES; 309 port->ctrl |= OHCI_PORT_PESC; 310 } 311 trace_usb_ohci_port_detach(port1->index); 312 313 if (old_state != port->ctrl) { 314 ohci_set_interrupt(s, OHCI_INTR_RHSC); 315 } 316 } 317 318 static void ohci_wakeup(USBPort *port1) 319 { 320 OHCIState *s = port1->opaque; 321 OHCIPort *port = &s->rhport[port1->index]; 322 uint32_t intr = 0; 323 if (port->ctrl & OHCI_PORT_PSS) { 324 trace_usb_ohci_port_wakeup(port1->index); 325 port->ctrl |= OHCI_PORT_PSSC; 326 port->ctrl &= ~OHCI_PORT_PSS; 327 intr = OHCI_INTR_RHSC; 328 } 329 /* Note that the controller can be suspended even if this port is not */ 330 if ((s->ctl & OHCI_CTL_HCFS) == OHCI_USB_SUSPEND) { 331 trace_usb_ohci_remote_wakeup(s->name); 332 /* This is the one state transition the controller can do by itself */ 333 s->ctl &= ~OHCI_CTL_HCFS; 334 s->ctl |= OHCI_USB_RESUME; 335 /* In suspend mode only ResumeDetected is possible, not RHSC: 336 * see the OHCI spec 5.1.2.3. 337 */ 338 intr = OHCI_INTR_RD; 339 } 340 ohci_set_interrupt(s, intr); 341 } 342 343 static void ohci_child_detach(USBPort *port1, USBDevice *child) 344 { 345 OHCIState *s = port1->opaque; 346 347 ohci_async_cancel_device(s, child); 348 } 349 350 static USBDevice *ohci_find_device(OHCIState *ohci, uint8_t addr) 351 { 352 USBDevice *dev; 353 int i; 354 355 for (i = 0; i < ohci->num_ports; i++) { 356 if ((ohci->rhport[i].ctrl & OHCI_PORT_PES) == 0) { 357 continue; 358 } 359 dev = usb_find_device(&ohci->rhport[i].port, addr); 360 if (dev != NULL) { 361 return dev; 362 } 363 } 364 return NULL; 365 } 366 367 void ohci_stop_endpoints(OHCIState *ohci) 368 { 369 USBDevice *dev; 370 int i, j; 371 372 for (i = 0; i < ohci->num_ports; i++) { 373 dev = ohci->rhport[i].port.dev; 374 if (dev && dev->attached) { 375 usb_device_ep_stopped(dev, &dev->ep_ctl); 376 for (j = 0; j < USB_MAX_ENDPOINTS; j++) { 377 usb_device_ep_stopped(dev, &dev->ep_in[j]); 378 usb_device_ep_stopped(dev, &dev->ep_out[j]); 379 } 380 } 381 } 382 } 383 384 static void ohci_roothub_reset(OHCIState *ohci) 385 { 386 OHCIPort *port; 387 int i; 388 389 ohci_bus_stop(ohci); 390 ohci->rhdesc_a = OHCI_RHA_NPS | ohci->num_ports; 391 ohci->rhdesc_b = 0x0; /* Impl. specific */ 392 ohci->rhstatus = 0; 393 394 for (i = 0; i < ohci->num_ports; i++) { 395 port = &ohci->rhport[i]; 396 port->ctrl = 0; 397 if (port->port.dev && port->port.dev->attached) { 398 usb_port_reset(&port->port); 399 } 400 } 401 if (ohci->async_td) { 402 usb_cancel_packet(&ohci->usb_packet); 403 ohci->async_td = 0; 404 } 405 ohci_stop_endpoints(ohci); 406 } 407 408 /* Reset the controller */ 409 static void ohci_soft_reset(OHCIState *ohci) 410 { 411 trace_usb_ohci_reset(ohci->name); 412 413 ohci_bus_stop(ohci); 414 ohci->ctl = (ohci->ctl & OHCI_CTL_IR) | OHCI_USB_SUSPEND; 415 ohci->old_ctl = 0; 416 ohci->status = 0; 417 ohci->intr_status = 0; 418 ohci->intr = OHCI_INTR_MIE; 419 420 ohci->hcca = 0; 421 ohci->ctrl_head = ohci->ctrl_cur = 0; 422 ohci->bulk_head = ohci->bulk_cur = 0; 423 ohci->per_cur = 0; 424 ohci->done = 0; 425 ohci->done_count = 7; 426 427 /* FSMPS is marked TBD in OCHI 1.0, what gives ffs? 428 * I took the value linux sets ... 429 */ 430 ohci->fsmps = 0x2778; 431 ohci->fi = 0x2edf; 432 ohci->fit = 0; 433 ohci->frt = 0; 434 ohci->frame_number = 0; 435 ohci->pstart = 0; 436 ohci->lst = OHCI_LS_THRESH; 437 } 438 439 void ohci_hard_reset(OHCIState *ohci) 440 { 441 ohci_soft_reset(ohci); 442 ohci->ctl = 0; 443 ohci_roothub_reset(ohci); 444 } 445 446 /* Get an array of dwords from main memory */ 447 static inline int get_dwords(OHCIState *ohci, 448 dma_addr_t addr, uint32_t *buf, int num) 449 { 450 int i; 451 452 addr += ohci->localmem_base; 453 454 for (i = 0; i < num; i++, buf++, addr += sizeof(*buf)) { 455 if (dma_memory_read(ohci->as, addr, buf, sizeof(*buf))) { 456 return -1; 457 } 458 *buf = le32_to_cpu(*buf); 459 } 460 461 return 0; 462 } 463 464 /* Put an array of dwords in to main memory */ 465 static inline int put_dwords(OHCIState *ohci, 466 dma_addr_t addr, uint32_t *buf, int num) 467 { 468 int i; 469 470 addr += ohci->localmem_base; 471 472 for (i = 0; i < num; i++, buf++, addr += sizeof(*buf)) { 473 uint32_t tmp = cpu_to_le32(*buf); 474 if (dma_memory_write(ohci->as, addr, &tmp, sizeof(tmp))) { 475 return -1; 476 } 477 } 478 479 return 0; 480 } 481 482 /* Get an array of words from main memory */ 483 static inline int get_words(OHCIState *ohci, 484 dma_addr_t addr, uint16_t *buf, int num) 485 { 486 int i; 487 488 addr += ohci->localmem_base; 489 490 for (i = 0; i < num; i++, buf++, addr += sizeof(*buf)) { 491 if (dma_memory_read(ohci->as, addr, buf, sizeof(*buf))) { 492 return -1; 493 } 494 *buf = le16_to_cpu(*buf); 495 } 496 497 return 0; 498 } 499 500 /* Put an array of words in to main memory */ 501 static inline int put_words(OHCIState *ohci, 502 dma_addr_t addr, uint16_t *buf, int num) 503 { 504 int i; 505 506 addr += ohci->localmem_base; 507 508 for (i = 0; i < num; i++, buf++, addr += sizeof(*buf)) { 509 uint16_t tmp = cpu_to_le16(*buf); 510 if (dma_memory_write(ohci->as, addr, &tmp, sizeof(tmp))) { 511 return -1; 512 } 513 } 514 515 return 0; 516 } 517 518 static inline int ohci_read_ed(OHCIState *ohci, 519 dma_addr_t addr, struct ohci_ed *ed) 520 { 521 return get_dwords(ohci, addr, (uint32_t *)ed, sizeof(*ed) >> 2); 522 } 523 524 static inline int ohci_read_td(OHCIState *ohci, 525 dma_addr_t addr, struct ohci_td *td) 526 { 527 return get_dwords(ohci, addr, (uint32_t *)td, sizeof(*td) >> 2); 528 } 529 530 static inline int ohci_read_iso_td(OHCIState *ohci, 531 dma_addr_t addr, struct ohci_iso_td *td) 532 { 533 return get_dwords(ohci, addr, (uint32_t *)td, 4) || 534 get_words(ohci, addr + 16, td->offset, 8); 535 } 536 537 static inline int ohci_read_hcca(OHCIState *ohci, 538 dma_addr_t addr, struct ohci_hcca *hcca) 539 { 540 return dma_memory_read(ohci->as, addr + ohci->localmem_base, 541 hcca, sizeof(*hcca)); 542 } 543 544 static inline int ohci_put_ed(OHCIState *ohci, 545 dma_addr_t addr, struct ohci_ed *ed) 546 { 547 /* ed->tail is under control of the HCD. 548 * Since just ed->head is changed by HC, just write back this 549 */ 550 551 return put_dwords(ohci, addr + ED_WBACK_OFFSET, 552 (uint32_t *)((char *)ed + ED_WBACK_OFFSET), 553 ED_WBACK_SIZE >> 2); 554 } 555 556 static inline int ohci_put_td(OHCIState *ohci, 557 dma_addr_t addr, struct ohci_td *td) 558 { 559 return put_dwords(ohci, addr, (uint32_t *)td, sizeof(*td) >> 2); 560 } 561 562 static inline int ohci_put_iso_td(OHCIState *ohci, 563 dma_addr_t addr, struct ohci_iso_td *td) 564 { 565 return put_dwords(ohci, addr, (uint32_t *)td, 4) || 566 put_words(ohci, addr + 16, td->offset, 8); 567 } 568 569 static inline int ohci_put_hcca(OHCIState *ohci, 570 dma_addr_t addr, struct ohci_hcca *hcca) 571 { 572 return dma_memory_write(ohci->as, 573 addr + ohci->localmem_base + HCCA_WRITEBACK_OFFSET, 574 (char *)hcca + HCCA_WRITEBACK_OFFSET, 575 HCCA_WRITEBACK_SIZE); 576 } 577 578 /* Read/Write the contents of a TD from/to main memory. */ 579 static int ohci_copy_td(OHCIState *ohci, struct ohci_td *td, 580 uint8_t *buf, int len, DMADirection dir) 581 { 582 dma_addr_t ptr, n; 583 584 ptr = td->cbp; 585 n = 0x1000 - (ptr & 0xfff); 586 if (n > len) 587 n = len; 588 589 if (dma_memory_rw(ohci->as, ptr + ohci->localmem_base, buf, n, dir)) { 590 return -1; 591 } 592 if (n == len) { 593 return 0; 594 } 595 ptr = td->be & ~0xfffu; 596 buf += n; 597 if (dma_memory_rw(ohci->as, ptr + ohci->localmem_base, buf, 598 len - n, dir)) { 599 return -1; 600 } 601 return 0; 602 } 603 604 /* Read/Write the contents of an ISO TD from/to main memory. */ 605 static int ohci_copy_iso_td(OHCIState *ohci, 606 uint32_t start_addr, uint32_t end_addr, 607 uint8_t *buf, int len, DMADirection dir) 608 { 609 dma_addr_t ptr, n; 610 611 ptr = start_addr; 612 n = 0x1000 - (ptr & 0xfff); 613 if (n > len) 614 n = len; 615 616 if (dma_memory_rw(ohci->as, ptr + ohci->localmem_base, buf, n, dir)) { 617 return -1; 618 } 619 if (n == len) { 620 return 0; 621 } 622 ptr = end_addr & ~0xfffu; 623 buf += n; 624 if (dma_memory_rw(ohci->as, ptr + ohci->localmem_base, buf, 625 len - n, dir)) { 626 return -1; 627 } 628 return 0; 629 } 630 631 static void ohci_process_lists(OHCIState *ohci, int completion); 632 633 static void ohci_async_complete_packet(USBPort *port, USBPacket *packet) 634 { 635 OHCIState *ohci = container_of(packet, OHCIState, usb_packet); 636 637 trace_usb_ohci_async_complete(); 638 ohci->async_complete = true; 639 ohci_process_lists(ohci, 1); 640 } 641 642 #define USUB(a, b) ((int16_t)((uint16_t)(a) - (uint16_t)(b))) 643 644 static int ohci_service_iso_td(OHCIState *ohci, struct ohci_ed *ed, 645 int completion) 646 { 647 int dir; 648 size_t len = 0; 649 const char *str = NULL; 650 int pid; 651 int ret; 652 int i; 653 USBDevice *dev; 654 USBEndpoint *ep; 655 struct ohci_iso_td iso_td; 656 uint32_t addr; 657 uint16_t starting_frame; 658 int16_t relative_frame_number; 659 int frame_count; 660 uint32_t start_offset, next_offset, end_offset = 0; 661 uint32_t start_addr, end_addr; 662 663 addr = ed->head & OHCI_DPTR_MASK; 664 665 if (ohci_read_iso_td(ohci, addr, &iso_td)) { 666 trace_usb_ohci_iso_td_read_failed(addr); 667 ohci_die(ohci); 668 return 1; 669 } 670 671 starting_frame = OHCI_BM(iso_td.flags, TD_SF); 672 frame_count = OHCI_BM(iso_td.flags, TD_FC); 673 relative_frame_number = USUB(ohci->frame_number, starting_frame); 674 675 trace_usb_ohci_iso_td_head( 676 ed->head & OHCI_DPTR_MASK, ed->tail & OHCI_DPTR_MASK, 677 iso_td.flags, iso_td.bp, iso_td.next, iso_td.be, 678 ohci->frame_number, starting_frame, 679 frame_count, relative_frame_number); 680 trace_usb_ohci_iso_td_head_offset( 681 iso_td.offset[0], iso_td.offset[1], 682 iso_td.offset[2], iso_td.offset[3], 683 iso_td.offset[4], iso_td.offset[5], 684 iso_td.offset[6], iso_td.offset[7]); 685 686 if (relative_frame_number < 0) { 687 trace_usb_ohci_iso_td_relative_frame_number_neg(relative_frame_number); 688 return 1; 689 } else if (relative_frame_number > frame_count) { 690 /* ISO TD expired - retire the TD to the Done Queue and continue with 691 the next ISO TD of the same ED */ 692 trace_usb_ohci_iso_td_relative_frame_number_big(relative_frame_number, 693 frame_count); 694 if (OHCI_CC_DATAOVERRUN == OHCI_BM(iso_td.flags, TD_CC)) { 695 /* avoid infinite loop */ 696 return 1; 697 } 698 OHCI_SET_BM(iso_td.flags, TD_CC, OHCI_CC_DATAOVERRUN); 699 ed->head &= ~OHCI_DPTR_MASK; 700 ed->head |= (iso_td.next & OHCI_DPTR_MASK); 701 iso_td.next = ohci->done; 702 ohci->done = addr; 703 i = OHCI_BM(iso_td.flags, TD_DI); 704 if (i < ohci->done_count) 705 ohci->done_count = i; 706 if (ohci_put_iso_td(ohci, addr, &iso_td)) { 707 ohci_die(ohci); 708 return 1; 709 } 710 return 0; 711 } 712 713 dir = OHCI_BM(ed->flags, ED_D); 714 switch (dir) { 715 case OHCI_TD_DIR_IN: 716 str = "in"; 717 pid = USB_TOKEN_IN; 718 break; 719 case OHCI_TD_DIR_OUT: 720 str = "out"; 721 pid = USB_TOKEN_OUT; 722 break; 723 case OHCI_TD_DIR_SETUP: 724 str = "setup"; 725 pid = USB_TOKEN_SETUP; 726 break; 727 default: 728 trace_usb_ohci_iso_td_bad_direction(dir); 729 return 1; 730 } 731 732 if (!iso_td.bp || !iso_td.be) { 733 trace_usb_ohci_iso_td_bad_bp_be(iso_td.bp, iso_td.be); 734 return 1; 735 } 736 737 start_offset = iso_td.offset[relative_frame_number]; 738 if (relative_frame_number < frame_count) { 739 next_offset = iso_td.offset[relative_frame_number + 1]; 740 } else { 741 next_offset = iso_td.be; 742 } 743 744 if (!(OHCI_BM(start_offset, TD_PSW_CC) & 0xe) || 745 ((relative_frame_number < frame_count) && 746 !(OHCI_BM(next_offset, TD_PSW_CC) & 0xe))) { 747 trace_usb_ohci_iso_td_bad_cc_not_accessed(start_offset, next_offset); 748 return 1; 749 } 750 751 if ((relative_frame_number < frame_count) && (start_offset > next_offset)) { 752 trace_usb_ohci_iso_td_bad_cc_overrun(start_offset, next_offset); 753 return 1; 754 } 755 756 if ((start_offset & 0x1000) == 0) { 757 start_addr = (iso_td.bp & OHCI_PAGE_MASK) | 758 (start_offset & OHCI_OFFSET_MASK); 759 } else { 760 start_addr = (iso_td.be & OHCI_PAGE_MASK) | 761 (start_offset & OHCI_OFFSET_MASK); 762 } 763 764 if (relative_frame_number < frame_count) { 765 end_offset = next_offset - 1; 766 if ((end_offset & 0x1000) == 0) { 767 end_addr = (iso_td.bp & OHCI_PAGE_MASK) | 768 (end_offset & OHCI_OFFSET_MASK); 769 } else { 770 end_addr = (iso_td.be & OHCI_PAGE_MASK) | 771 (end_offset & OHCI_OFFSET_MASK); 772 } 773 } else { 774 /* Last packet in the ISO TD */ 775 end_addr = next_offset; 776 } 777 778 if (start_addr > end_addr) { 779 trace_usb_ohci_iso_td_bad_cc_overrun(start_addr, end_addr); 780 return 1; 781 } 782 783 if ((start_addr & OHCI_PAGE_MASK) != (end_addr & OHCI_PAGE_MASK)) { 784 len = (end_addr & OHCI_OFFSET_MASK) + 0x1001 785 - (start_addr & OHCI_OFFSET_MASK); 786 } else { 787 len = end_addr - start_addr + 1; 788 } 789 if (len > sizeof(ohci->usb_buf)) { 790 len = sizeof(ohci->usb_buf); 791 } 792 793 if (len && dir != OHCI_TD_DIR_IN) { 794 if (ohci_copy_iso_td(ohci, start_addr, end_addr, ohci->usb_buf, len, 795 DMA_DIRECTION_TO_DEVICE)) { 796 ohci_die(ohci); 797 return 1; 798 } 799 } 800 801 if (!completion) { 802 bool int_req = relative_frame_number == frame_count && 803 OHCI_BM(iso_td.flags, TD_DI) == 0; 804 dev = ohci_find_device(ohci, OHCI_BM(ed->flags, ED_FA)); 805 if (dev == NULL) { 806 trace_usb_ohci_td_dev_error(); 807 return 1; 808 } 809 ep = usb_ep_get(dev, pid, OHCI_BM(ed->flags, ED_EN)); 810 usb_packet_setup(&ohci->usb_packet, pid, ep, 0, addr, false, int_req); 811 usb_packet_addbuf(&ohci->usb_packet, ohci->usb_buf, len); 812 usb_handle_packet(dev, &ohci->usb_packet); 813 if (ohci->usb_packet.status == USB_RET_ASYNC) { 814 usb_device_flush_ep_queue(dev, ep); 815 return 1; 816 } 817 } 818 if (ohci->usb_packet.status == USB_RET_SUCCESS) { 819 ret = ohci->usb_packet.actual_length; 820 } else { 821 ret = ohci->usb_packet.status; 822 } 823 824 trace_usb_ohci_iso_td_so(start_offset, end_offset, start_addr, end_addr, 825 str, len, ret); 826 827 /* Writeback */ 828 if (dir == OHCI_TD_DIR_IN && ret >= 0 && ret <= len) { 829 /* IN transfer succeeded */ 830 if (ohci_copy_iso_td(ohci, start_addr, end_addr, ohci->usb_buf, ret, 831 DMA_DIRECTION_FROM_DEVICE)) { 832 ohci_die(ohci); 833 return 1; 834 } 835 OHCI_SET_BM(iso_td.offset[relative_frame_number], TD_PSW_CC, 836 OHCI_CC_NOERROR); 837 OHCI_SET_BM(iso_td.offset[relative_frame_number], TD_PSW_SIZE, ret); 838 } else if (dir == OHCI_TD_DIR_OUT && ret == len) { 839 /* OUT transfer succeeded */ 840 OHCI_SET_BM(iso_td.offset[relative_frame_number], TD_PSW_CC, 841 OHCI_CC_NOERROR); 842 OHCI_SET_BM(iso_td.offset[relative_frame_number], TD_PSW_SIZE, 0); 843 } else { 844 if (ret > (ssize_t) len) { 845 trace_usb_ohci_iso_td_data_overrun(ret, len); 846 OHCI_SET_BM(iso_td.offset[relative_frame_number], TD_PSW_CC, 847 OHCI_CC_DATAOVERRUN); 848 OHCI_SET_BM(iso_td.offset[relative_frame_number], TD_PSW_SIZE, 849 len); 850 } else if (ret >= 0) { 851 trace_usb_ohci_iso_td_data_underrun(ret); 852 OHCI_SET_BM(iso_td.offset[relative_frame_number], TD_PSW_CC, 853 OHCI_CC_DATAUNDERRUN); 854 } else { 855 switch (ret) { 856 case USB_RET_IOERROR: 857 case USB_RET_NODEV: 858 OHCI_SET_BM(iso_td.offset[relative_frame_number], TD_PSW_CC, 859 OHCI_CC_DEVICENOTRESPONDING); 860 OHCI_SET_BM(iso_td.offset[relative_frame_number], TD_PSW_SIZE, 861 0); 862 break; 863 case USB_RET_NAK: 864 case USB_RET_STALL: 865 trace_usb_ohci_iso_td_nak(ret); 866 OHCI_SET_BM(iso_td.offset[relative_frame_number], TD_PSW_CC, 867 OHCI_CC_STALL); 868 OHCI_SET_BM(iso_td.offset[relative_frame_number], TD_PSW_SIZE, 869 0); 870 break; 871 default: 872 trace_usb_ohci_iso_td_bad_response(ret); 873 OHCI_SET_BM(iso_td.offset[relative_frame_number], TD_PSW_CC, 874 OHCI_CC_UNDEXPETEDPID); 875 break; 876 } 877 } 878 } 879 880 if (relative_frame_number == frame_count) { 881 /* Last data packet of ISO TD - retire the TD to the Done Queue */ 882 OHCI_SET_BM(iso_td.flags, TD_CC, OHCI_CC_NOERROR); 883 ed->head &= ~OHCI_DPTR_MASK; 884 ed->head |= (iso_td.next & OHCI_DPTR_MASK); 885 iso_td.next = ohci->done; 886 ohci->done = addr; 887 i = OHCI_BM(iso_td.flags, TD_DI); 888 if (i < ohci->done_count) 889 ohci->done_count = i; 890 } 891 if (ohci_put_iso_td(ohci, addr, &iso_td)) { 892 ohci_die(ohci); 893 } 894 return 1; 895 } 896 897 static void ohci_td_pkt(const char *msg, const uint8_t *buf, size_t len) 898 { 899 bool print16; 900 bool printall; 901 const int width = 16; 902 int i; 903 char tmp[3 * width + 1]; 904 char *p = tmp; 905 906 print16 = !!trace_event_get_state_backends(TRACE_USB_OHCI_TD_PKT_SHORT); 907 printall = !!trace_event_get_state_backends(TRACE_USB_OHCI_TD_PKT_FULL); 908 909 if (!printall && !print16) { 910 return; 911 } 912 913 for (i = 0; ; i++) { 914 if (i && (!(i % width) || (i == len))) { 915 if (!printall) { 916 trace_usb_ohci_td_pkt_short(msg, tmp); 917 break; 918 } 919 trace_usb_ohci_td_pkt_full(msg, tmp); 920 p = tmp; 921 *p = 0; 922 } 923 if (i == len) { 924 break; 925 } 926 927 p += sprintf(p, " %.2x", buf[i]); 928 } 929 } 930 931 /* Service a transport descriptor. 932 Returns nonzero to terminate processing of this endpoint. */ 933 934 static int ohci_service_td(OHCIState *ohci, struct ohci_ed *ed) 935 { 936 int dir; 937 size_t len = 0, pktlen = 0; 938 const char *str = NULL; 939 int pid; 940 int ret; 941 int i; 942 USBDevice *dev; 943 USBEndpoint *ep; 944 struct ohci_td td; 945 uint32_t addr; 946 int flag_r; 947 int completion; 948 949 addr = ed->head & OHCI_DPTR_MASK; 950 /* See if this TD has already been submitted to the device. */ 951 completion = (addr == ohci->async_td); 952 if (completion && !ohci->async_complete) { 953 trace_usb_ohci_td_skip_async(); 954 return 1; 955 } 956 if (ohci_read_td(ohci, addr, &td)) { 957 trace_usb_ohci_td_read_error(addr); 958 ohci_die(ohci); 959 return 1; 960 } 961 962 dir = OHCI_BM(ed->flags, ED_D); 963 switch (dir) { 964 case OHCI_TD_DIR_OUT: 965 case OHCI_TD_DIR_IN: 966 /* Same value. */ 967 break; 968 default: 969 dir = OHCI_BM(td.flags, TD_DP); 970 break; 971 } 972 973 switch (dir) { 974 case OHCI_TD_DIR_IN: 975 str = "in"; 976 pid = USB_TOKEN_IN; 977 break; 978 case OHCI_TD_DIR_OUT: 979 str = "out"; 980 pid = USB_TOKEN_OUT; 981 break; 982 case OHCI_TD_DIR_SETUP: 983 str = "setup"; 984 pid = USB_TOKEN_SETUP; 985 break; 986 default: 987 trace_usb_ohci_td_bad_direction(dir); 988 return 1; 989 } 990 if (td.cbp && td.be) { 991 if ((td.cbp & 0xfffff000) != (td.be & 0xfffff000)) { 992 len = (td.be & 0xfff) + 0x1001 - (td.cbp & 0xfff); 993 } else { 994 if (td.cbp > td.be) { 995 trace_usb_ohci_iso_td_bad_cc_overrun(td.cbp, td.be); 996 ohci_die(ohci); 997 return 1; 998 } 999 len = (td.be - td.cbp) + 1; 1000 } 1001 if (len > sizeof(ohci->usb_buf)) { 1002 len = sizeof(ohci->usb_buf); 1003 } 1004 1005 pktlen = len; 1006 if (len && dir != OHCI_TD_DIR_IN) { 1007 /* The endpoint may not allow us to transfer it all now */ 1008 pktlen = (ed->flags & OHCI_ED_MPS_MASK) >> OHCI_ED_MPS_SHIFT; 1009 if (pktlen > len) { 1010 pktlen = len; 1011 } 1012 if (!completion) { 1013 if (ohci_copy_td(ohci, &td, ohci->usb_buf, pktlen, 1014 DMA_DIRECTION_TO_DEVICE)) { 1015 ohci_die(ohci); 1016 } 1017 } 1018 } 1019 } 1020 1021 flag_r = (td.flags & OHCI_TD_R) != 0; 1022 trace_usb_ohci_td_pkt_hdr(addr, (int64_t)pktlen, (int64_t)len, str, 1023 flag_r, td.cbp, td.be); 1024 ohci_td_pkt("OUT", ohci->usb_buf, pktlen); 1025 1026 if (completion) { 1027 ohci->async_td = 0; 1028 ohci->async_complete = false; 1029 } else { 1030 if (ohci->async_td) { 1031 /* ??? The hardware should allow one active packet per 1032 endpoint. We only allow one active packet per controller. 1033 This should be sufficient as long as devices respond in a 1034 timely manner. 1035 */ 1036 trace_usb_ohci_td_too_many_pending(); 1037 return 1; 1038 } 1039 dev = ohci_find_device(ohci, OHCI_BM(ed->flags, ED_FA)); 1040 if (dev == NULL) { 1041 trace_usb_ohci_td_dev_error(); 1042 return 1; 1043 } 1044 ep = usb_ep_get(dev, pid, OHCI_BM(ed->flags, ED_EN)); 1045 usb_packet_setup(&ohci->usb_packet, pid, ep, 0, addr, !flag_r, 1046 OHCI_BM(td.flags, TD_DI) == 0); 1047 usb_packet_addbuf(&ohci->usb_packet, ohci->usb_buf, pktlen); 1048 usb_handle_packet(dev, &ohci->usb_packet); 1049 trace_usb_ohci_td_packet_status(ohci->usb_packet.status); 1050 1051 if (ohci->usb_packet.status == USB_RET_ASYNC) { 1052 usb_device_flush_ep_queue(dev, ep); 1053 ohci->async_td = addr; 1054 return 1; 1055 } 1056 } 1057 if (ohci->usb_packet.status == USB_RET_SUCCESS) { 1058 ret = ohci->usb_packet.actual_length; 1059 } else { 1060 ret = ohci->usb_packet.status; 1061 } 1062 1063 if (ret >= 0) { 1064 if (dir == OHCI_TD_DIR_IN) { 1065 if (ohci_copy_td(ohci, &td, ohci->usb_buf, ret, 1066 DMA_DIRECTION_FROM_DEVICE)) { 1067 ohci_die(ohci); 1068 } 1069 ohci_td_pkt("IN", ohci->usb_buf, pktlen); 1070 } else { 1071 ret = pktlen; 1072 } 1073 } 1074 1075 /* Writeback */ 1076 if (ret == pktlen || (dir == OHCI_TD_DIR_IN && ret >= 0 && flag_r)) { 1077 /* Transmission succeeded. */ 1078 if (ret == len) { 1079 td.cbp = 0; 1080 } else { 1081 if ((td.cbp & 0xfff) + ret > 0xfff) { 1082 td.cbp = (td.be & ~0xfff) + ((td.cbp + ret) & 0xfff); 1083 } else { 1084 td.cbp += ret; 1085 } 1086 } 1087 td.flags |= OHCI_TD_T1; 1088 td.flags ^= OHCI_TD_T0; 1089 OHCI_SET_BM(td.flags, TD_CC, OHCI_CC_NOERROR); 1090 OHCI_SET_BM(td.flags, TD_EC, 0); 1091 1092 if ((dir != OHCI_TD_DIR_IN) && (ret != len)) { 1093 /* Partial packet transfer: TD not ready to retire yet */ 1094 goto exit_no_retire; 1095 } 1096 1097 /* Setting ED_C is part of the TD retirement process */ 1098 ed->head &= ~OHCI_ED_C; 1099 if (td.flags & OHCI_TD_T0) 1100 ed->head |= OHCI_ED_C; 1101 } else { 1102 if (ret >= 0) { 1103 trace_usb_ohci_td_underrun(); 1104 OHCI_SET_BM(td.flags, TD_CC, OHCI_CC_DATAUNDERRUN); 1105 } else { 1106 switch (ret) { 1107 case USB_RET_IOERROR: 1108 case USB_RET_NODEV: 1109 trace_usb_ohci_td_dev_error(); 1110 OHCI_SET_BM(td.flags, TD_CC, OHCI_CC_DEVICENOTRESPONDING); 1111 break; 1112 case USB_RET_NAK: 1113 trace_usb_ohci_td_nak(); 1114 return 1; 1115 case USB_RET_STALL: 1116 trace_usb_ohci_td_stall(); 1117 OHCI_SET_BM(td.flags, TD_CC, OHCI_CC_STALL); 1118 break; 1119 case USB_RET_BABBLE: 1120 trace_usb_ohci_td_babble(); 1121 OHCI_SET_BM(td.flags, TD_CC, OHCI_CC_DATAOVERRUN); 1122 break; 1123 default: 1124 trace_usb_ohci_td_bad_device_response(ret); 1125 OHCI_SET_BM(td.flags, TD_CC, OHCI_CC_UNDEXPETEDPID); 1126 OHCI_SET_BM(td.flags, TD_EC, 3); 1127 break; 1128 } 1129 /* An error occurred so we have to clear the interrupt counter. See 1130 * spec at 6.4.4 on page 104 */ 1131 ohci->done_count = 0; 1132 } 1133 ed->head |= OHCI_ED_H; 1134 } 1135 1136 /* Retire this TD */ 1137 ed->head &= ~OHCI_DPTR_MASK; 1138 ed->head |= td.next & OHCI_DPTR_MASK; 1139 td.next = ohci->done; 1140 ohci->done = addr; 1141 i = OHCI_BM(td.flags, TD_DI); 1142 if (i < ohci->done_count) 1143 ohci->done_count = i; 1144 exit_no_retire: 1145 if (ohci_put_td(ohci, addr, &td)) { 1146 ohci_die(ohci); 1147 return 1; 1148 } 1149 return OHCI_BM(td.flags, TD_CC) != OHCI_CC_NOERROR; 1150 } 1151 1152 /* Service an endpoint list. Returns nonzero if active TD were found. */ 1153 static int ohci_service_ed_list(OHCIState *ohci, uint32_t head, int completion) 1154 { 1155 struct ohci_ed ed; 1156 uint32_t next_ed; 1157 uint32_t cur; 1158 int active; 1159 uint32_t link_cnt = 0; 1160 active = 0; 1161 1162 if (head == 0) 1163 return 0; 1164 1165 for (cur = head; cur && link_cnt++ < ED_LINK_LIMIT; cur = next_ed) { 1166 if (ohci_read_ed(ohci, cur, &ed)) { 1167 trace_usb_ohci_ed_read_error(cur); 1168 ohci_die(ohci); 1169 return 0; 1170 } 1171 1172 next_ed = ed.next & OHCI_DPTR_MASK; 1173 1174 if ((ed.head & OHCI_ED_H) || (ed.flags & OHCI_ED_K)) { 1175 uint32_t addr; 1176 /* Cancel pending packets for ED that have been paused. */ 1177 addr = ed.head & OHCI_DPTR_MASK; 1178 if (ohci->async_td && addr == ohci->async_td) { 1179 usb_cancel_packet(&ohci->usb_packet); 1180 ohci->async_td = 0; 1181 usb_device_ep_stopped(ohci->usb_packet.ep->dev, 1182 ohci->usb_packet.ep); 1183 } 1184 continue; 1185 } 1186 1187 while ((ed.head & OHCI_DPTR_MASK) != ed.tail) { 1188 trace_usb_ohci_ed_pkt(cur, (ed.head & OHCI_ED_H) != 0, 1189 (ed.head & OHCI_ED_C) != 0, ed.head & OHCI_DPTR_MASK, 1190 ed.tail & OHCI_DPTR_MASK, ed.next & OHCI_DPTR_MASK); 1191 trace_usb_ohci_ed_pkt_flags( 1192 OHCI_BM(ed.flags, ED_FA), OHCI_BM(ed.flags, ED_EN), 1193 OHCI_BM(ed.flags, ED_D), (ed.flags & OHCI_ED_S)!= 0, 1194 (ed.flags & OHCI_ED_K) != 0, (ed.flags & OHCI_ED_F) != 0, 1195 OHCI_BM(ed.flags, ED_MPS)); 1196 1197 active = 1; 1198 1199 if ((ed.flags & OHCI_ED_F) == 0) { 1200 if (ohci_service_td(ohci, &ed)) 1201 break; 1202 } else { 1203 /* Handle isochronous endpoints */ 1204 if (ohci_service_iso_td(ohci, &ed, completion)) 1205 break; 1206 } 1207 } 1208 1209 if (ohci_put_ed(ohci, cur, &ed)) { 1210 ohci_die(ohci); 1211 return 0; 1212 } 1213 } 1214 1215 return active; 1216 } 1217 1218 /* set a timer for EOF */ 1219 static void ohci_eof_timer(OHCIState *ohci) 1220 { 1221 timer_mod(ohci->eof_timer, ohci->sof_time + usb_frame_time); 1222 } 1223 /* Set a timer for EOF and generate a SOF event */ 1224 static void ohci_sof(OHCIState *ohci) 1225 { 1226 ohci->sof_time += usb_frame_time; 1227 ohci_eof_timer(ohci); 1228 ohci_set_interrupt(ohci, OHCI_INTR_SF); 1229 } 1230 1231 /* Process Control and Bulk lists. */ 1232 static void ohci_process_lists(OHCIState *ohci, int completion) 1233 { 1234 if ((ohci->ctl & OHCI_CTL_CLE) && (ohci->status & OHCI_STATUS_CLF)) { 1235 if (ohci->ctrl_cur && ohci->ctrl_cur != ohci->ctrl_head) { 1236 trace_usb_ohci_process_lists(ohci->ctrl_head, ohci->ctrl_cur); 1237 } 1238 if (!ohci_service_ed_list(ohci, ohci->ctrl_head, completion)) { 1239 ohci->ctrl_cur = 0; 1240 ohci->status &= ~OHCI_STATUS_CLF; 1241 } 1242 } 1243 1244 if ((ohci->ctl & OHCI_CTL_BLE) && (ohci->status & OHCI_STATUS_BLF)) { 1245 if (!ohci_service_ed_list(ohci, ohci->bulk_head, completion)) { 1246 ohci->bulk_cur = 0; 1247 ohci->status &= ~OHCI_STATUS_BLF; 1248 } 1249 } 1250 } 1251 1252 /* Do frame processing on frame boundary */ 1253 static void ohci_frame_boundary(void *opaque) 1254 { 1255 OHCIState *ohci = opaque; 1256 struct ohci_hcca hcca; 1257 1258 if (ohci_read_hcca(ohci, ohci->hcca, &hcca)) { 1259 trace_usb_ohci_hcca_read_error(ohci->hcca); 1260 ohci_die(ohci); 1261 return; 1262 } 1263 1264 /* Process all the lists at the end of the frame */ 1265 if (ohci->ctl & OHCI_CTL_PLE) { 1266 int n; 1267 1268 n = ohci->frame_number & 0x1f; 1269 ohci_service_ed_list(ohci, le32_to_cpu(hcca.intr[n]), 0); 1270 } 1271 1272 /* Cancel all pending packets if either of the lists has been disabled. */ 1273 if (ohci->old_ctl & (~ohci->ctl) & (OHCI_CTL_BLE | OHCI_CTL_CLE)) { 1274 if (ohci->async_td) { 1275 usb_cancel_packet(&ohci->usb_packet); 1276 ohci->async_td = 0; 1277 } 1278 ohci_stop_endpoints(ohci); 1279 } 1280 ohci->old_ctl = ohci->ctl; 1281 ohci_process_lists(ohci, 0); 1282 1283 /* Stop if UnrecoverableError happened or ohci_sof will crash */ 1284 if (ohci->intr_status & OHCI_INTR_UE) { 1285 return; 1286 } 1287 1288 /* Frame boundary, so do EOF stuf here */ 1289 ohci->frt = ohci->fit; 1290 1291 /* Increment frame number and take care of endianness. */ 1292 ohci->frame_number = (ohci->frame_number + 1) & 0xffff; 1293 hcca.frame = cpu_to_le16(ohci->frame_number); 1294 1295 if (ohci->done_count == 0 && !(ohci->intr_status & OHCI_INTR_WD)) { 1296 if (!ohci->done) 1297 abort(); 1298 if (ohci->intr & ohci->intr_status) 1299 ohci->done |= 1; 1300 hcca.done = cpu_to_le32(ohci->done); 1301 ohci->done = 0; 1302 ohci->done_count = 7; 1303 ohci_set_interrupt(ohci, OHCI_INTR_WD); 1304 } 1305 1306 if (ohci->done_count != 7 && ohci->done_count != 0) 1307 ohci->done_count--; 1308 1309 /* Do SOF stuff here */ 1310 ohci_sof(ohci); 1311 1312 /* Writeback HCCA */ 1313 if (ohci_put_hcca(ohci, ohci->hcca, &hcca)) { 1314 ohci_die(ohci); 1315 } 1316 } 1317 1318 /* Start sending SOF tokens across the USB bus, lists are processed in 1319 * next frame 1320 */ 1321 static int ohci_bus_start(OHCIState *ohci) 1322 { 1323 trace_usb_ohci_start(ohci->name); 1324 1325 /* Delay the first SOF event by one frame time as 1326 * linux driver is not ready to receive it and 1327 * can meet some race conditions 1328 */ 1329 1330 ohci->sof_time = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL); 1331 ohci_eof_timer(ohci); 1332 1333 return 1; 1334 } 1335 1336 /* Stop sending SOF tokens on the bus */ 1337 void ohci_bus_stop(OHCIState *ohci) 1338 { 1339 trace_usb_ohci_stop(ohci->name); 1340 timer_del(ohci->eof_timer); 1341 } 1342 1343 /* Sets a flag in a port status register but only set it if the port is 1344 * connected, if not set ConnectStatusChange flag. If flag is enabled 1345 * return 1. 1346 */ 1347 static int ohci_port_set_if_connected(OHCIState *ohci, int i, uint32_t val) 1348 { 1349 int ret = 1; 1350 1351 /* writing a 0 has no effect */ 1352 if (val == 0) 1353 return 0; 1354 1355 /* If CurrentConnectStatus is cleared we set 1356 * ConnectStatusChange 1357 */ 1358 if (!(ohci->rhport[i].ctrl & OHCI_PORT_CCS)) { 1359 ohci->rhport[i].ctrl |= OHCI_PORT_CSC; 1360 if (ohci->rhstatus & OHCI_RHS_DRWE) { 1361 /* TODO: CSC is a wakeup event */ 1362 } 1363 return 0; 1364 } 1365 1366 if (ohci->rhport[i].ctrl & val) 1367 ret = 0; 1368 1369 /* set the bit */ 1370 ohci->rhport[i].ctrl |= val; 1371 1372 return ret; 1373 } 1374 1375 /* Set the frame interval - frame interval toggle is manipulated by the hcd only */ 1376 static void ohci_set_frame_interval(OHCIState *ohci, uint16_t val) 1377 { 1378 val &= OHCI_FMI_FI; 1379 1380 if (val != ohci->fi) { 1381 trace_usb_ohci_set_frame_interval(ohci->name, ohci->fi, ohci->fi); 1382 } 1383 1384 ohci->fi = val; 1385 } 1386 1387 static void ohci_port_power(OHCIState *ohci, int i, int p) 1388 { 1389 if (p) { 1390 ohci->rhport[i].ctrl |= OHCI_PORT_PPS; 1391 } else { 1392 ohci->rhport[i].ctrl &= ~(OHCI_PORT_PPS| 1393 OHCI_PORT_CCS| 1394 OHCI_PORT_PSS| 1395 OHCI_PORT_PRS); 1396 } 1397 } 1398 1399 /* Set HcControlRegister */ 1400 static void ohci_set_ctl(OHCIState *ohci, uint32_t val) 1401 { 1402 uint32_t old_state; 1403 uint32_t new_state; 1404 1405 old_state = ohci->ctl & OHCI_CTL_HCFS; 1406 ohci->ctl = val; 1407 new_state = ohci->ctl & OHCI_CTL_HCFS; 1408 1409 /* no state change */ 1410 if (old_state == new_state) 1411 return; 1412 1413 trace_usb_ohci_set_ctl(ohci->name, new_state); 1414 switch (new_state) { 1415 case OHCI_USB_OPERATIONAL: 1416 ohci_bus_start(ohci); 1417 break; 1418 case OHCI_USB_SUSPEND: 1419 ohci_bus_stop(ohci); 1420 /* clear pending SF otherwise linux driver loops in ohci_irq() */ 1421 ohci->intr_status &= ~OHCI_INTR_SF; 1422 ohci_intr_update(ohci); 1423 break; 1424 case OHCI_USB_RESUME: 1425 trace_usb_ohci_resume(ohci->name); 1426 break; 1427 case OHCI_USB_RESET: 1428 ohci_roothub_reset(ohci); 1429 break; 1430 } 1431 } 1432 1433 static uint32_t ohci_get_frame_remaining(OHCIState *ohci) 1434 { 1435 uint16_t fr; 1436 int64_t tks; 1437 1438 if ((ohci->ctl & OHCI_CTL_HCFS) != OHCI_USB_OPERATIONAL) 1439 return (ohci->frt << 31); 1440 1441 /* Being in USB operational state guarnatees sof_time was 1442 * set already. 1443 */ 1444 tks = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL) - ohci->sof_time; 1445 if (tks < 0) { 1446 tks = 0; 1447 } 1448 1449 /* avoid muldiv if possible */ 1450 if (tks >= usb_frame_time) 1451 return (ohci->frt << 31); 1452 1453 tks = tks / usb_bit_time; 1454 fr = (uint16_t)(ohci->fi - tks); 1455 1456 return (ohci->frt << 31) | fr; 1457 } 1458 1459 1460 /* Set root hub status */ 1461 static void ohci_set_hub_status(OHCIState *ohci, uint32_t val) 1462 { 1463 uint32_t old_state; 1464 1465 old_state = ohci->rhstatus; 1466 1467 /* write 1 to clear OCIC */ 1468 if (val & OHCI_RHS_OCIC) 1469 ohci->rhstatus &= ~OHCI_RHS_OCIC; 1470 1471 if (val & OHCI_RHS_LPS) { 1472 int i; 1473 1474 for (i = 0; i < ohci->num_ports; i++) 1475 ohci_port_power(ohci, i, 0); 1476 trace_usb_ohci_hub_power_down(); 1477 } 1478 1479 if (val & OHCI_RHS_LPSC) { 1480 int i; 1481 1482 for (i = 0; i < ohci->num_ports; i++) 1483 ohci_port_power(ohci, i, 1); 1484 trace_usb_ohci_hub_power_up(); 1485 } 1486 1487 if (val & OHCI_RHS_DRWE) 1488 ohci->rhstatus |= OHCI_RHS_DRWE; 1489 1490 if (val & OHCI_RHS_CRWE) 1491 ohci->rhstatus &= ~OHCI_RHS_DRWE; 1492 1493 if (old_state != ohci->rhstatus) 1494 ohci_set_interrupt(ohci, OHCI_INTR_RHSC); 1495 } 1496 1497 /* Set root hub port status */ 1498 static void ohci_port_set_status(OHCIState *ohci, int portnum, uint32_t val) 1499 { 1500 uint32_t old_state; 1501 OHCIPort *port; 1502 1503 port = &ohci->rhport[portnum]; 1504 old_state = port->ctrl; 1505 1506 /* Write to clear CSC, PESC, PSSC, OCIC, PRSC */ 1507 if (val & OHCI_PORT_WTC) 1508 port->ctrl &= ~(val & OHCI_PORT_WTC); 1509 1510 if (val & OHCI_PORT_CCS) 1511 port->ctrl &= ~OHCI_PORT_PES; 1512 1513 ohci_port_set_if_connected(ohci, portnum, val & OHCI_PORT_PES); 1514 1515 if (ohci_port_set_if_connected(ohci, portnum, val & OHCI_PORT_PSS)) { 1516 trace_usb_ohci_port_suspend(portnum); 1517 } 1518 1519 if (ohci_port_set_if_connected(ohci, portnum, val & OHCI_PORT_PRS)) { 1520 trace_usb_ohci_port_reset(portnum); 1521 usb_device_reset(port->port.dev); 1522 port->ctrl &= ~OHCI_PORT_PRS; 1523 /* ??? Should this also set OHCI_PORT_PESC. */ 1524 port->ctrl |= OHCI_PORT_PES | OHCI_PORT_PRSC; 1525 } 1526 1527 /* Invert order here to ensure in ambiguous case, device is 1528 * powered up... 1529 */ 1530 if (val & OHCI_PORT_LSDA) 1531 ohci_port_power(ohci, portnum, 0); 1532 if (val & OHCI_PORT_PPS) 1533 ohci_port_power(ohci, portnum, 1); 1534 1535 if (old_state != port->ctrl) 1536 ohci_set_interrupt(ohci, OHCI_INTR_RHSC); 1537 } 1538 1539 static uint64_t ohci_mem_read(void *opaque, 1540 hwaddr addr, 1541 unsigned size) 1542 { 1543 OHCIState *ohci = opaque; 1544 uint32_t retval; 1545 1546 /* Only aligned reads are allowed on OHCI */ 1547 if (addr & 3) { 1548 trace_usb_ohci_mem_read_unaligned(addr); 1549 return 0xffffffff; 1550 } else if (addr >= 0x54 && addr < 0x54 + ohci->num_ports * 4) { 1551 /* HcRhPortStatus */ 1552 retval = ohci->rhport[(addr - 0x54) >> 2].ctrl | OHCI_PORT_PPS; 1553 } else { 1554 switch (addr >> 2) { 1555 case 0: /* HcRevision */ 1556 retval = 0x10; 1557 break; 1558 1559 case 1: /* HcControl */ 1560 retval = ohci->ctl; 1561 break; 1562 1563 case 2: /* HcCommandStatus */ 1564 retval = ohci->status; 1565 break; 1566 1567 case 3: /* HcInterruptStatus */ 1568 retval = ohci->intr_status; 1569 break; 1570 1571 case 4: /* HcInterruptEnable */ 1572 case 5: /* HcInterruptDisable */ 1573 retval = ohci->intr; 1574 break; 1575 1576 case 6: /* HcHCCA */ 1577 retval = ohci->hcca; 1578 break; 1579 1580 case 7: /* HcPeriodCurrentED */ 1581 retval = ohci->per_cur; 1582 break; 1583 1584 case 8: /* HcControlHeadED */ 1585 retval = ohci->ctrl_head; 1586 break; 1587 1588 case 9: /* HcControlCurrentED */ 1589 retval = ohci->ctrl_cur; 1590 break; 1591 1592 case 10: /* HcBulkHeadED */ 1593 retval = ohci->bulk_head; 1594 break; 1595 1596 case 11: /* HcBulkCurrentED */ 1597 retval = ohci->bulk_cur; 1598 break; 1599 1600 case 12: /* HcDoneHead */ 1601 retval = ohci->done; 1602 break; 1603 1604 case 13: /* HcFmInterretval */ 1605 retval = (ohci->fit << 31) | (ohci->fsmps << 16) | (ohci->fi); 1606 break; 1607 1608 case 14: /* HcFmRemaining */ 1609 retval = ohci_get_frame_remaining(ohci); 1610 break; 1611 1612 case 15: /* HcFmNumber */ 1613 retval = ohci->frame_number; 1614 break; 1615 1616 case 16: /* HcPeriodicStart */ 1617 retval = ohci->pstart; 1618 break; 1619 1620 case 17: /* HcLSThreshold */ 1621 retval = ohci->lst; 1622 break; 1623 1624 case 18: /* HcRhDescriptorA */ 1625 retval = ohci->rhdesc_a; 1626 break; 1627 1628 case 19: /* HcRhDescriptorB */ 1629 retval = ohci->rhdesc_b; 1630 break; 1631 1632 case 20: /* HcRhStatus */ 1633 retval = ohci->rhstatus; 1634 break; 1635 1636 /* PXA27x specific registers */ 1637 case 24: /* HcStatus */ 1638 retval = ohci->hstatus & ohci->hmask; 1639 break; 1640 1641 case 25: /* HcHReset */ 1642 retval = ohci->hreset; 1643 break; 1644 1645 case 26: /* HcHInterruptEnable */ 1646 retval = ohci->hmask; 1647 break; 1648 1649 case 27: /* HcHInterruptTest */ 1650 retval = ohci->htest; 1651 break; 1652 1653 default: 1654 trace_usb_ohci_mem_read_bad_offset(addr); 1655 retval = 0xffffffff; 1656 } 1657 } 1658 1659 return retval; 1660 } 1661 1662 static void ohci_mem_write(void *opaque, 1663 hwaddr addr, 1664 uint64_t val, 1665 unsigned size) 1666 { 1667 OHCIState *ohci = opaque; 1668 1669 /* Only aligned reads are allowed on OHCI */ 1670 if (addr & 3) { 1671 trace_usb_ohci_mem_write_unaligned(addr); 1672 return; 1673 } 1674 1675 if (addr >= 0x54 && addr < 0x54 + ohci->num_ports * 4) { 1676 /* HcRhPortStatus */ 1677 ohci_port_set_status(ohci, (addr - 0x54) >> 2, val); 1678 return; 1679 } 1680 1681 switch (addr >> 2) { 1682 case 1: /* HcControl */ 1683 ohci_set_ctl(ohci, val); 1684 break; 1685 1686 case 2: /* HcCommandStatus */ 1687 /* SOC is read-only */ 1688 val = (val & ~OHCI_STATUS_SOC); 1689 1690 /* Bits written as '0' remain unchanged in the register */ 1691 ohci->status |= val; 1692 1693 if (ohci->status & OHCI_STATUS_HCR) 1694 ohci_soft_reset(ohci); 1695 break; 1696 1697 case 3: /* HcInterruptStatus */ 1698 ohci->intr_status &= ~val; 1699 ohci_intr_update(ohci); 1700 break; 1701 1702 case 4: /* HcInterruptEnable */ 1703 ohci->intr |= val; 1704 ohci_intr_update(ohci); 1705 break; 1706 1707 case 5: /* HcInterruptDisable */ 1708 ohci->intr &= ~val; 1709 ohci_intr_update(ohci); 1710 break; 1711 1712 case 6: /* HcHCCA */ 1713 ohci->hcca = val & OHCI_HCCA_MASK; 1714 break; 1715 1716 case 7: /* HcPeriodCurrentED */ 1717 /* Ignore writes to this read-only register, Linux does them */ 1718 break; 1719 1720 case 8: /* HcControlHeadED */ 1721 ohci->ctrl_head = val & OHCI_EDPTR_MASK; 1722 break; 1723 1724 case 9: /* HcControlCurrentED */ 1725 ohci->ctrl_cur = val & OHCI_EDPTR_MASK; 1726 break; 1727 1728 case 10: /* HcBulkHeadED */ 1729 ohci->bulk_head = val & OHCI_EDPTR_MASK; 1730 break; 1731 1732 case 11: /* HcBulkCurrentED */ 1733 ohci->bulk_cur = val & OHCI_EDPTR_MASK; 1734 break; 1735 1736 case 13: /* HcFmInterval */ 1737 ohci->fsmps = (val & OHCI_FMI_FSMPS) >> 16; 1738 ohci->fit = (val & OHCI_FMI_FIT) >> 31; 1739 ohci_set_frame_interval(ohci, val); 1740 break; 1741 1742 case 15: /* HcFmNumber */ 1743 break; 1744 1745 case 16: /* HcPeriodicStart */ 1746 ohci->pstart = val & 0xffff; 1747 break; 1748 1749 case 17: /* HcLSThreshold */ 1750 ohci->lst = val & 0xffff; 1751 break; 1752 1753 case 18: /* HcRhDescriptorA */ 1754 ohci->rhdesc_a &= ~OHCI_RHA_RW_MASK; 1755 ohci->rhdesc_a |= val & OHCI_RHA_RW_MASK; 1756 break; 1757 1758 case 19: /* HcRhDescriptorB */ 1759 break; 1760 1761 case 20: /* HcRhStatus */ 1762 ohci_set_hub_status(ohci, val); 1763 break; 1764 1765 /* PXA27x specific registers */ 1766 case 24: /* HcStatus */ 1767 ohci->hstatus &= ~(val & ohci->hmask); 1768 break; 1769 1770 case 25: /* HcHReset */ 1771 ohci->hreset = val & ~OHCI_HRESET_FSBIR; 1772 if (val & OHCI_HRESET_FSBIR) 1773 ohci_hard_reset(ohci); 1774 break; 1775 1776 case 26: /* HcHInterruptEnable */ 1777 ohci->hmask = val; 1778 break; 1779 1780 case 27: /* HcHInterruptTest */ 1781 ohci->htest = val; 1782 break; 1783 1784 default: 1785 trace_usb_ohci_mem_write_bad_offset(addr); 1786 break; 1787 } 1788 } 1789 1790 static void ohci_async_cancel_device(OHCIState *ohci, USBDevice *dev) 1791 { 1792 if (ohci->async_td && 1793 usb_packet_is_inflight(&ohci->usb_packet) && 1794 ohci->usb_packet.ep->dev == dev) { 1795 usb_cancel_packet(&ohci->usb_packet); 1796 ohci->async_td = 0; 1797 } 1798 } 1799 1800 static const MemoryRegionOps ohci_mem_ops = { 1801 .read = ohci_mem_read, 1802 .write = ohci_mem_write, 1803 .endianness = DEVICE_LITTLE_ENDIAN, 1804 }; 1805 1806 static USBPortOps ohci_port_ops = { 1807 .attach = ohci_attach, 1808 .detach = ohci_detach, 1809 .child_detach = ohci_child_detach, 1810 .wakeup = ohci_wakeup, 1811 .complete = ohci_async_complete_packet, 1812 }; 1813 1814 static USBBusOps ohci_bus_ops = { 1815 }; 1816 1817 void usb_ohci_init(OHCIState *ohci, DeviceState *dev, uint32_t num_ports, 1818 dma_addr_t localmem_base, char *masterbus, 1819 uint32_t firstport, AddressSpace *as, 1820 void (*ohci_die_fn)(struct OHCIState *), Error **errp) 1821 { 1822 Error *err = NULL; 1823 int i; 1824 1825 ohci->as = as; 1826 ohci->ohci_die = ohci_die_fn; 1827 1828 if (num_ports > OHCI_MAX_PORTS) { 1829 error_setg(errp, "OHCI num-ports=%u is too big (limit is %u ports)", 1830 num_ports, OHCI_MAX_PORTS); 1831 return; 1832 } 1833 1834 if (usb_frame_time == 0) { 1835 #ifdef OHCI_TIME_WARP 1836 usb_frame_time = NANOSECONDS_PER_SECOND; 1837 usb_bit_time = NANOSECONDS_PER_SECOND / (USB_HZ / 1000); 1838 #else 1839 usb_frame_time = NANOSECONDS_PER_SECOND / 1000; 1840 if (NANOSECONDS_PER_SECOND >= USB_HZ) { 1841 usb_bit_time = NANOSECONDS_PER_SECOND / USB_HZ; 1842 } else { 1843 usb_bit_time = 1; 1844 } 1845 #endif 1846 trace_usb_ohci_init_time(usb_frame_time, usb_bit_time); 1847 } 1848 1849 ohci->num_ports = num_ports; 1850 if (masterbus) { 1851 USBPort *ports[OHCI_MAX_PORTS]; 1852 for(i = 0; i < num_ports; i++) { 1853 ports[i] = &ohci->rhport[i].port; 1854 } 1855 usb_register_companion(masterbus, ports, num_ports, 1856 firstport, ohci, &ohci_port_ops, 1857 USB_SPEED_MASK_LOW | USB_SPEED_MASK_FULL, 1858 &err); 1859 if (err) { 1860 error_propagate(errp, err); 1861 return; 1862 } 1863 } else { 1864 usb_bus_new(&ohci->bus, sizeof(ohci->bus), &ohci_bus_ops, dev); 1865 for (i = 0; i < num_ports; i++) { 1866 usb_register_port(&ohci->bus, &ohci->rhport[i].port, 1867 ohci, i, &ohci_port_ops, 1868 USB_SPEED_MASK_LOW | USB_SPEED_MASK_FULL); 1869 } 1870 } 1871 1872 memory_region_init_io(&ohci->mem, OBJECT(dev), &ohci_mem_ops, 1873 ohci, "ohci", 256); 1874 ohci->localmem_base = localmem_base; 1875 1876 ohci->name = object_get_typename(OBJECT(dev)); 1877 usb_packet_init(&ohci->usb_packet); 1878 1879 ohci->async_td = 0; 1880 1881 ohci->eof_timer = timer_new_ns(QEMU_CLOCK_VIRTUAL, 1882 ohci_frame_boundary, ohci); 1883 } 1884 1885 /** 1886 * A typical OHCI will stop operating and set itself into error state 1887 * (which can be queried by MMIO) to signal that it got an error. 1888 */ 1889 void ohci_sysbus_die(struct OHCIState *ohci) 1890 { 1891 trace_usb_ohci_die(); 1892 1893 ohci_set_interrupt(ohci, OHCI_INTR_UE); 1894 ohci_bus_stop(ohci); 1895 } 1896 1897 static void ohci_realize_pxa(DeviceState *dev, Error **errp) 1898 { 1899 OHCISysBusState *s = SYSBUS_OHCI(dev); 1900 SysBusDevice *sbd = SYS_BUS_DEVICE(dev); 1901 Error *err = NULL; 1902 1903 usb_ohci_init(&s->ohci, dev, s->num_ports, s->dma_offset, 1904 s->masterbus, s->firstport, 1905 &address_space_memory, ohci_sysbus_die, &err); 1906 if (err) { 1907 error_propagate(errp, err); 1908 return; 1909 } 1910 sysbus_init_irq(sbd, &s->ohci.irq); 1911 sysbus_init_mmio(sbd, &s->ohci.mem); 1912 } 1913 1914 static void usb_ohci_reset_sysbus(DeviceState *dev) 1915 { 1916 OHCISysBusState *s = SYSBUS_OHCI(dev); 1917 OHCIState *ohci = &s->ohci; 1918 1919 ohci_hard_reset(ohci); 1920 } 1921 1922 static const VMStateDescription vmstate_ohci_state_port = { 1923 .name = "ohci-core/port", 1924 .version_id = 1, 1925 .minimum_version_id = 1, 1926 .fields = (VMStateField[]) { 1927 VMSTATE_UINT32(ctrl, OHCIPort), 1928 VMSTATE_END_OF_LIST() 1929 }, 1930 }; 1931 1932 static bool ohci_eof_timer_needed(void *opaque) 1933 { 1934 OHCIState *ohci = opaque; 1935 1936 return timer_pending(ohci->eof_timer); 1937 } 1938 1939 static const VMStateDescription vmstate_ohci_eof_timer = { 1940 .name = "ohci-core/eof-timer", 1941 .version_id = 1, 1942 .minimum_version_id = 1, 1943 .needed = ohci_eof_timer_needed, 1944 .fields = (VMStateField[]) { 1945 VMSTATE_TIMER_PTR(eof_timer, OHCIState), 1946 VMSTATE_END_OF_LIST() 1947 }, 1948 }; 1949 1950 const VMStateDescription vmstate_ohci_state = { 1951 .name = "ohci-core", 1952 .version_id = 1, 1953 .minimum_version_id = 1, 1954 .fields = (VMStateField[]) { 1955 VMSTATE_INT64(sof_time, OHCIState), 1956 VMSTATE_UINT32(ctl, OHCIState), 1957 VMSTATE_UINT32(status, OHCIState), 1958 VMSTATE_UINT32(intr_status, OHCIState), 1959 VMSTATE_UINT32(intr, OHCIState), 1960 VMSTATE_UINT32(hcca, OHCIState), 1961 VMSTATE_UINT32(ctrl_head, OHCIState), 1962 VMSTATE_UINT32(ctrl_cur, OHCIState), 1963 VMSTATE_UINT32(bulk_head, OHCIState), 1964 VMSTATE_UINT32(bulk_cur, OHCIState), 1965 VMSTATE_UINT32(per_cur, OHCIState), 1966 VMSTATE_UINT32(done, OHCIState), 1967 VMSTATE_INT32(done_count, OHCIState), 1968 VMSTATE_UINT16(fsmps, OHCIState), 1969 VMSTATE_UINT8(fit, OHCIState), 1970 VMSTATE_UINT16(fi, OHCIState), 1971 VMSTATE_UINT8(frt, OHCIState), 1972 VMSTATE_UINT16(frame_number, OHCIState), 1973 VMSTATE_UINT16(padding, OHCIState), 1974 VMSTATE_UINT32(pstart, OHCIState), 1975 VMSTATE_UINT32(lst, OHCIState), 1976 VMSTATE_UINT32(rhdesc_a, OHCIState), 1977 VMSTATE_UINT32(rhdesc_b, OHCIState), 1978 VMSTATE_UINT32(rhstatus, OHCIState), 1979 VMSTATE_STRUCT_ARRAY(rhport, OHCIState, OHCI_MAX_PORTS, 0, 1980 vmstate_ohci_state_port, OHCIPort), 1981 VMSTATE_UINT32(hstatus, OHCIState), 1982 VMSTATE_UINT32(hmask, OHCIState), 1983 VMSTATE_UINT32(hreset, OHCIState), 1984 VMSTATE_UINT32(htest, OHCIState), 1985 VMSTATE_UINT32(old_ctl, OHCIState), 1986 VMSTATE_UINT8_ARRAY(usb_buf, OHCIState, 8192), 1987 VMSTATE_UINT32(async_td, OHCIState), 1988 VMSTATE_BOOL(async_complete, OHCIState), 1989 VMSTATE_END_OF_LIST() 1990 }, 1991 .subsections = (const VMStateDescription*[]) { 1992 &vmstate_ohci_eof_timer, 1993 NULL 1994 } 1995 }; 1996 1997 static Property ohci_sysbus_properties[] = { 1998 DEFINE_PROP_STRING("masterbus", OHCISysBusState, masterbus), 1999 DEFINE_PROP_UINT32("num-ports", OHCISysBusState, num_ports, 3), 2000 DEFINE_PROP_UINT32("firstport", OHCISysBusState, firstport, 0), 2001 DEFINE_PROP_DMAADDR("dma-offset", OHCISysBusState, dma_offset, 0), 2002 DEFINE_PROP_END_OF_LIST(), 2003 }; 2004 2005 static void ohci_sysbus_class_init(ObjectClass *klass, void *data) 2006 { 2007 DeviceClass *dc = DEVICE_CLASS(klass); 2008 2009 dc->realize = ohci_realize_pxa; 2010 set_bit(DEVICE_CATEGORY_USB, dc->categories); 2011 dc->desc = "OHCI USB Controller"; 2012 device_class_set_props(dc, ohci_sysbus_properties); 2013 dc->reset = usb_ohci_reset_sysbus; 2014 } 2015 2016 static const TypeInfo ohci_sysbus_info = { 2017 .name = TYPE_SYSBUS_OHCI, 2018 .parent = TYPE_SYS_BUS_DEVICE, 2019 .instance_size = sizeof(OHCISysBusState), 2020 .class_init = ohci_sysbus_class_init, 2021 }; 2022 2023 static void ohci_register_types(void) 2024 { 2025 type_register_static(&ohci_sysbus_info); 2026 } 2027 2028 type_init(ohci_register_types) 2029