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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 386 387 388 389 390 391 392 393 394 395 396 397 398 399 400 401 402 403 404 405 406 407 408 409 410 411 412 413 414 415 416 417 418 419 420 421 422 423 424 425 426 427 428 429 430 431 432 433 434 435 436 437 438 439 440 441 442 443 444 445 446 447 448 449 450 451 452 453 454 455 456 457 458 459 460 461 462 463 464 465 466 467 468 469 470 471 472 473 474 475 476 477 478 479 480 481 482 483 484 485 486 487 488 489 490 491 492 493 494 495 496 497 498 499 500 501 502 503 504 505 506 507 508 509 510 511 512 513 514 515 516 517 518 519 520 521 522 523 524 525 526 527 528 529 530 531 532 533 534 535 536 537 538 539 540 541 542 543 544 545 546 547 548 549 550 551 552 553 554 555 556 557 558 559 560 561 562 563 564 565 566 567 568 569 570 571 572 573 574 575 576 577 578 579 580 581 582 583 584 585 586 587 588 589 590 591 592 593 594 595 596 597 598 599 600 601 602 603 604 605 606 607 608 609 610 611 612 613 614 615 616 617 618 619 620 621 622 623 624 625 626 627 628 629 630 631 632 633 634 635 636 637 638 639 640 641 642 643 644 645 646 647 648 649 650 651 652 653 654 655 656 657 658 659 660 661 662 663 664 665 666 667 668 669 670 671 672 673 674 675 676 677 678 679 680 681 682 683 684 685 686 687 688 689 690 691 692 693 694 695 696 697 698 699 700 701 702 703 704 705 706 707 708 709 710 711 712 713 714 715 716 717 718 719 720 721 722 723 724 725 726 727 728 729 730 731 732 733 734 735 736 737 738 739 740 741 742 743 744 745 746 747 748 749 750 751 752 753 754 755 756 757 758 759 | /********************************************************************* * * vlsi_ir.h: VLSI82C147 PCI IrDA controller driver for Linux * * Version: 0.5 * * Copyright (c) 2001-2003 Martin Diehl * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA * ********************************************************************/ #ifndef IRDA_VLSI_FIR_H #define IRDA_VLSI_FIR_H /* ================================================================ * compatibility stuff */ /* definitions not present in pci_ids.h */ #ifndef PCI_CLASS_WIRELESS_IRDA #define PCI_CLASS_WIRELESS_IRDA 0x0d00 #endif #ifndef PCI_CLASS_SUBCLASS_MASK #define PCI_CLASS_SUBCLASS_MASK 0xffff #endif /* ================================================================ */ /* non-standard PCI registers */ enum vlsi_pci_regs { VLSI_PCI_CLKCTL = 0x40, /* chip clock input control */ VLSI_PCI_MSTRPAGE = 0x41, /* addr [31:24] for all busmaster cycles */ VLSI_PCI_IRMISC = 0x42 /* mainly legacy UART related */ }; /* ------------------------------------------ */ /* VLSI_PCI_CLKCTL: Clock Control Register (u8, rw) */ /* Three possible clock sources: either on-chip 48MHz PLL or * external clock applied to EXTCLK pin. External clock may * be either 48MHz or 40MHz, which is indicated by XCKSEL. * CLKSTP controls whether the selected clock source gets * connected to the IrDA block. * * On my HP OB-800 the BIOS sets external 40MHz clock as source * when IrDA enabled and I've never detected any PLL lock success. * Apparently the 14.3...MHz OSC input required for the PLL to work * is not connected and the 40MHz EXTCLK is provided externally. * At least this is what makes the driver working for me. */ enum vlsi_pci_clkctl { /* PLL control */ CLKCTL_PD_INV = 0x04, /* PD#: inverted power down signal, * i.e. PLL is powered, if PD_INV set */ CLKCTL_LOCK = 0x40, /* (ro) set, if PLL is locked */ /* clock source selection */ CLKCTL_EXTCLK = 0x20, /* set to select external clock input, not PLL */ CLKCTL_XCKSEL = 0x10, /* set to indicate EXTCLK is 40MHz, not 48MHz */ /* IrDA block control */ CLKCTL_CLKSTP = 0x80, /* set to disconnect from selected clock source */ CLKCTL_WAKE = 0x08 /* set to enable wakeup feature: whenever IR activity * is detected, PD_INV gets set(?) and CLKSTP cleared */ }; /* ------------------------------------------ */ /* VLSI_PCI_MSTRPAGE: Master Page Register (u8, rw) and busmastering stuff */ #define DMA_MASK_USED_BY_HW 0xffffffff #define DMA_MASK_MSTRPAGE 0x00ffffff #define MSTRPAGE_VALUE (DMA_MASK_MSTRPAGE >> 24) /* PCI busmastering is somewhat special for this guy - in short: * * We select to operate using fixed MSTRPAGE=0, use ISA DMA * address restrictions to make the PCI BM api aware of this, * but ensure the hardware is dealing with real 32bit access. * * In detail: * The chip executes normal 32bit busmaster cycles, i.e. * drives all 32 address lines. These addresses however are * composed of [0:23] taken from various busaddr-pointers * and [24:31] taken from the MSTRPAGE register in the VLSI82C147 * config space. Therefore _all_ busmastering must be * targeted to/from one single 16MB (busaddr-) superpage! * The point is to make sure all the allocations for memory * locations with busmaster access (ring descriptors, buffers) * are indeed bus-mappable to the same 16MB range (for x86 this * means they must reside in the same 16MB physical memory address * range). The only constraint we have which supports "several objects * mappable to common 16MB range" paradigma, is the old ISA DMA * restriction to the first 16MB of physical address range. * Hence the approach here is to enable PCI busmaster support using * the correct 32bit dma-mask used by the chip. Afterwards the device's * dma-mask gets restricted to 24bit, which must be honoured somehow by * all allocations for memory areas to be exposed to the chip ... * * Note: * Don't be surprised to get "Setting latency timer..." messages every * time when PCI busmastering is enabled for the chip. * The chip has its PCI latency timer RO fixed at 0 - which is not a * problem here, because it is never requesting _burst_ transactions. */ /* ------------------------------------------ */ /* VLSI_PCIIRMISC: IR Miscellaneous Register (u8, rw) */ /* legacy UART emulation - not used by this driver - would require: * (see below for some register-value definitions) * * - IRMISC_UARTEN must be set to enable UART address decoding * - IRMISC_UARTSEL configured * - IRCFG_MASTER must be cleared * - IRCFG_SIR must be set * - IRENABLE_PHYANDCLOCK must be asserted 0->1 (and hence IRENABLE_SIR_ON) */ enum vlsi_pci_irmisc { /* IR transceiver control */ IRMISC_IRRAIL = 0x40, /* (ro?) IR rail power indication (and control?) * 0=3.3V / 1=5V. Probably set during power-on? * unclear - not touched by driver */ IRMISC_IRPD = 0x08, /* transceiver power down, if set */ /* legacy UART control */ IRMISC_UARTTST = 0x80, /* UART test mode - "always write 0" */ IRMISC_UARTEN = 0x04, /* enable UART address decoding */ /* bits [1:0] IRMISC_UARTSEL to select legacy UART address */ IRMISC_UARTSEL_3f8 = 0x00, IRMISC_UARTSEL_2f8 = 0x01, IRMISC_UARTSEL_3e8 = 0x02, IRMISC_UARTSEL_2e8 = 0x03 }; /* ================================================================ */ /* registers mapped to 32 byte PCI IO space */ /* note: better access all registers at the indicated u8/u16 size * although some of them contain only 1 byte of information. * some of them (particaluarly PROMPT and IRCFG) ignore * access when using the wrong addressing mode! */ enum vlsi_pio_regs { VLSI_PIO_IRINTR = 0x00, /* interrupt enable/request (u8, rw) */ VLSI_PIO_RINGPTR = 0x02, /* rx/tx ring pointer (u16, ro) */ VLSI_PIO_RINGBASE = 0x04, /* [23:10] of ring address (u16, rw) */ VLSI_PIO_RINGSIZE = 0x06, /* rx/tx ring size (u16, rw) */ VLSI_PIO_PROMPT = 0x08, /* triggers ring processing (u16, wo) */ /* 0x0a-0x0f: reserved / duplicated UART regs */ VLSI_PIO_IRCFG = 0x10, /* configuration select (u16, rw) */ VLSI_PIO_SIRFLAG = 0x12, /* BOF/EOF for filtered SIR (u16, ro) */ VLSI_PIO_IRENABLE = 0x14, /* enable and status register (u16, rw/ro) */ VLSI_PIO_PHYCTL = 0x16, /* physical layer current status (u16, ro) */ VLSI_PIO_NPHYCTL = 0x18, /* next physical layer select (u16, rw) */ VLSI_PIO_MAXPKT = 0x1a, /* [11:0] max len for packet receive (u16, rw) */ VLSI_PIO_RCVBCNT = 0x1c /* current receive-FIFO byte count (u16, ro) */ /* 0x1e-0x1f: reserved / duplicated UART regs */ }; /* ------------------------------------------ */ /* VLSI_PIO_IRINTR: Interrupt Register (u8, rw) */ /* enable-bits: * 1 = enable / 0 = disable * interrupt condition bits: * set according to corresponding interrupt source * (regardless of the state of the enable bits) * enable bit status indicates whether interrupt gets raised * write-to-clear * note: RPKTINT and TPKTINT behave different in legacy UART mode (which we don't use :-) */ enum vlsi_pio_irintr { IRINTR_ACTEN = 0x80, /* activity interrupt enable */ IRINTR_ACTIVITY = 0x40, /* activity monitor (traffic detected) */ IRINTR_RPKTEN = 0x20, /* receive packet interrupt enable*/ IRINTR_RPKTINT = 0x10, /* rx-packet transfered from fifo to memory finished */ IRINTR_TPKTEN = 0x08, /* transmit packet interrupt enable */ IRINTR_TPKTINT = 0x04, /* last bit of tx-packet+crc shifted to ir-pulser */ IRINTR_OE_EN = 0x02, /* UART rx fifo overrun error interrupt enable */ IRINTR_OE_INT = 0x01 /* UART rx fifo overrun error (read LSR to clear) */ }; /* we use this mask to check whether the (shared PCI) interrupt is ours */ #define IRINTR_INT_MASK (IRINTR_ACTIVITY|IRINTR_RPKTINT|IRINTR_TPKTINT) /* ------------------------------------------ */ /* VLSI_PIO_RINGPTR: Ring Pointer Read-Back Register (u16, ro) */ /* _both_ ring pointers are indices relative to the _entire_ rx,tx-ring! * i.e. the referenced descriptor is located * at RINGBASE + PTR * sizeof(descr) for rx and tx * therefore, the tx-pointer has offset MAX_RING_DESCR */ #define MAX_RING_DESCR 64 /* tx, rx rings may contain up to 64 descr each */ #define RINGPTR_RX_MASK (MAX_RING_DESCR-1) #define RINGPTR_TX_MASK ((MAX_RING_DESCR-1)<<8) #define RINGPTR_GET_RX(p) ((p)&RINGPTR_RX_MASK) #define RINGPTR_GET_TX(p) (((p)&RINGPTR_TX_MASK)>>8) /* ------------------------------------------ */ /* VLSI_PIO_RINGBASE: Ring Pointer Base Address Register (u16, ro) */ /* Contains [23:10] part of the ring base (bus-) address * which must be 1k-alinged. [31:24] is taken from * VLSI_PCI_MSTRPAGE above. * The controller initiates non-burst PCI BM cycles to * fetch and update the descriptors in the ring. * Once fetched, the descriptor remains cached onchip * until it gets closed and updated due to the ring * processing state machine. * The entire ring area is split in rx and tx areas with each * area consisting of 64 descriptors of 8 bytes each. * The rx(tx) ring is located at ringbase+0 (ringbase+64*8). */ #define BUS_TO_RINGBASE(p) (((p)>>10)&0x3fff) /* ------------------------------------------ */ /* VLSI_PIO_RINGSIZE: Ring Size Register (u16, rw) */ /* bit mask to indicate the ring size to be used for rx and tx. * possible values encoded bits * 4 0000 * 8 0001 * 16 0011 * 32 0111 * 64 1111 * located at [15:12] for tx and [11:8] for rx ([7:0] unused) * * note: probably a good idea to have IRCFG_MSTR cleared when writing * this so the state machines are stopped and the RINGPTR is reset! */ #define SIZE_TO_BITS(num) ((((num)-1)>>2)&0x0f) #define TX_RX_TO_RINGSIZE(tx,rx) ((SIZE_TO_BITS(tx)<<12)|(SIZE_TO_BITS(rx)<<8)) #define RINGSIZE_TO_RXSIZE(rs) ((((rs)&0x0f00)>>6)+4) #define RINGSIZE_TO_TXSIZE(rs) ((((rs)&0xf000)>>10)+4) /* ------------------------------------------ */ /* VLSI_PIO_PROMPT: Ring Prompting Register (u16, write-to-start) */ /* writing any value kicks the ring processing state machines * for both tx, rx rings as follows: * - active rings (currently owning an active descriptor) * ignore the prompt and continue * - idle rings fetch the next descr from the ring and start * their processing */ /* ------------------------------------------ */ /* VLSI_PIO_IRCFG: IR Config Register (u16, rw) */ /* notes: * - not more than one SIR/MIR/FIR bit must be set at any time * - SIR, MIR, FIR and CRC16 select the configuration which will * be applied on next 0->1 transition of IRENABLE_PHYANDCLOCK (see below). * - besides allowing the PCI interface to execute busmaster cycles * and therefore the ring SM to operate, the MSTR bit has side-effects: * when MSTR is cleared, the RINGPTR's get reset and the legacy UART mode * (in contrast to busmaster access mode) gets enabled. * - clearing ENRX or setting ENTX while data is received may stall the * receive fifo until ENRX reenabled _and_ another packet arrives * - SIRFILT means the chip performs the required unwrapping of hardware * headers (XBOF's, BOF/EOF) and un-escaping in the _receive_ direction. * Only the resulting IrLAP payload is copied to the receive buffers - * but with the 16bit FCS still encluded. Question remains, whether it * was already checked or we should do it before passing the packet to IrLAP? */ enum vlsi_pio_ircfg { IRCFG_LOOP = 0x4000, /* enable loopback test mode */ IRCFG_ENTX = 0x1000, /* transmit enable */ IRCFG_ENRX = 0x0800, /* receive enable */ IRCFG_MSTR = 0x0400, /* master enable */ IRCFG_RXANY = 0x0200, /* receive any packet */ IRCFG_CRC16 = 0x0080, /* 16bit (not 32bit) CRC select for MIR/FIR */ IRCFG_FIR = 0x0040, /* FIR 4PPM encoding mode enable */ IRCFG_MIR = 0x0020, /* MIR HDLC encoding mode enable */ IRCFG_SIR = 0x0010, /* SIR encoding mode enable */ IRCFG_SIRFILT = 0x0008, /* enable SIR decode filter (receiver unwrapping) */ IRCFG_SIRTEST = 0x0004, /* allow SIR decode filter when not in SIR mode */ IRCFG_TXPOL = 0x0002, /* invert tx polarity when set */ IRCFG_RXPOL = 0x0001 /* invert rx polarity when set */ }; /* ------------------------------------------ */ /* VLSI_PIO_SIRFLAG: SIR Flag Register (u16, ro) */ /* register contains hardcoded BOF=0xc0 at [7:0] and EOF=0xc1 at [15:8] * which is used for unwrapping received frames in SIR decode-filter mode */ /* ------------------------------------------ */ /* VLSI_PIO_IRENABLE: IR Enable Register (u16, rw/ro) */ /* notes: * - IREN acts as gate for latching the configured IR mode information * from IRCFG and IRPHYCTL when IREN=reset and applying them when * IREN gets set afterwards. * - ENTXST reflects IRCFG_ENTX * - ENRXST = IRCFG_ENRX && (!IRCFG_ENTX || IRCFG_LOOP) */ enum vlsi_pio_irenable { IRENABLE_PHYANDCLOCK = 0x8000, /* enable IR phy and gate the mode config (rw) */ IRENABLE_CFGER = 0x4000, /* mode configuration error (ro) */ IRENABLE_FIR_ON = 0x2000, /* FIR on status (ro) */ IRENABLE_MIR_ON = 0x1000, /* MIR on status (ro) */ IRENABLE_SIR_ON = 0x0800, /* SIR on status (ro) */ IRENABLE_ENTXST = 0x0400, /* transmit enable status (ro) */ IRENABLE_ENRXST = 0x0200, /* Receive enable status (ro) */ IRENABLE_CRC16_ON = 0x0100 /* 16bit (not 32bit) CRC enabled status (ro) */ }; #define IRENABLE_MASK 0xff00 /* Read mask */ /* ------------------------------------------ */ /* VLSI_PIO_PHYCTL: IR Physical Layer Current Control Register (u16, ro) */ /* read-back of the currently applied physical layer status. * applied from VLSI_PIO_NPHYCTL at rising edge of IRENABLE_PHYANDCLOCK * contents identical to VLSI_PIO_NPHYCTL (see below) */ /* ------------------------------------------ */ /* VLSI_PIO_NPHYCTL: IR Physical Layer Next Control Register (u16, rw) */ /* latched during IRENABLE_PHYANDCLOCK=0 and applied at 0-1 transition * * consists of BAUD[15:10], PLSWID[9:5] and PREAMB[4:0] bits defined as follows: * * SIR-mode: BAUD = (115.2kHz / baudrate) - 1 * PLSWID = (pulsetime * freq / (BAUD+1)) - 1 * where pulsetime is the requested IrPHY pulse width * and freq is 8(16)MHz for 40(48)MHz primary input clock * PREAMB: don't care for SIR * * The nominal SIR pulse width is 3/16 bit time so we have PLSWID=12 * fixed for all SIR speeds at 40MHz input clock (PLSWID=24 at 48MHz). * IrPHY also allows shorter pulses down to the nominal pulse duration * at 115.2kbaud (minus some tolerance) which is 1.41 usec. * Using the expression PLSWID = 12/(BAUD+1)-1 (multiplied by two for 48MHz) * we get the minimum acceptable PLSWID values according to the VLSI * specification, which provides 1.5 usec pulse width for all speeds (except * for 2.4kbaud getting 6usec). This is fine with IrPHY v1.3 specs and * reduces the transceiver power which drains the battery. At 9.6kbaud for * example this amounts to more than 90% battery power saving! * * MIR-mode: BAUD = 0 * PLSWID = 9(10) for 40(48) MHz input clock * to get nominal MIR pulse width * PREAMB = 1 * * FIR-mode: BAUD = 0 * PLSWID: don't care * PREAMB = 15 */ #define PHYCTL_BAUD_SHIFT 10 #define PHYCTL_BAUD_MASK 0xfc00 #define PHYCTL_PLSWID_SHIFT 5 #define PHYCTL_PLSWID_MASK 0x03e0 #define PHYCTL_PREAMB_SHIFT 0 #define PHYCTL_PREAMB_MASK 0x001f #define PHYCTL_TO_BAUD(bwp) (((bwp)&PHYCTL_BAUD_MASK)>>PHYCTL_BAUD_SHIFT) #define PHYCTL_TO_PLSWID(bwp) (((bwp)&PHYCTL_PLSWID_MASK)>>PHYCTL_PLSWID_SHIFT) #define PHYCTL_TO_PREAMB(bwp) (((bwp)&PHYCTL_PREAMB_MASK)>>PHYCTL_PREAMB_SHIFT) #define BWP_TO_PHYCTL(b,w,p) ((((b)<<PHYCTL_BAUD_SHIFT)&PHYCTL_BAUD_MASK) \ | (((w)<<PHYCTL_PLSWID_SHIFT)&PHYCTL_PLSWID_MASK) \ | (((p)<<PHYCTL_PREAMB_SHIFT)&PHYCTL_PREAMB_MASK)) #define BAUD_BITS(br) ((115200/(br))-1) static inline unsigned calc_width_bits(unsigned baudrate, unsigned widthselect, unsigned clockselect) { unsigned tmp; if (widthselect) /* nominal 3/16 puls width */ return (clockselect) ? 12 : 24; tmp = ((clockselect) ? 12 : 24) / (BAUD_BITS(baudrate)+1); /* intermediate result of integer division needed here */ return (tmp>0) ? (tmp-1) : 0; } #define PHYCTL_SIR(br,ws,cs) BWP_TO_PHYCTL(BAUD_BITS(br),calc_width_bits((br),(ws),(cs)),0) #define PHYCTL_MIR(cs) BWP_TO_PHYCTL(0,((cs)?9:10),1) #define PHYCTL_FIR BWP_TO_PHYCTL(0,0,15) /* quite ugly, I know. But implementing these calculations here avoids * having magic numbers in the code and allows some playing with pulsewidths * without risk to violate the standards. * FWIW, here is the table for reference: * * baudrate BAUD min-PLSWID nom-PLSWID PREAMB * 2400 47 0(0) 12(24) 0 * 9600 11 0(0) 12(24) 0 * 19200 5 1(2) 12(24) 0 * 38400 2 3(6) 12(24) 0 * 57600 1 5(10) 12(24) 0 * 115200 0 11(22) 12(24) 0 * MIR 0 - 9(10) 1 * FIR 0 - 0 15 * * note: x(y) means x-value for 40MHz / y-value for 48MHz primary input clock */ /* ------------------------------------------ */ /* VLSI_PIO_MAXPKT: Maximum Packet Length register (u16, rw) */ /* maximum acceptable length for received packets */ /* hw imposed limitation - register uses only [11:0] */ #define MAX_PACKET_LENGTH 0x0fff /* IrLAP I-field (apparently not defined elsewhere) */ #define IRDA_MTU 2048 /* complete packet consists of A(1)+C(1)+I(<=IRDA_MTU) */ #define IRLAP_SKB_ALLOCSIZE (1+1+IRDA_MTU) /* the buffers we use to exchange frames with the hardware need to be * larger than IRLAP_SKB_ALLOCSIZE because we may have up to 4 bytes FCS * appended and, in SIR mode, a lot of frame wrapping bytes. The worst * case appears to be a SIR packet with I-size==IRDA_MTU and all bytes * requiring to be escaped to provide transparency. Furthermore, the peer * might ask for quite a number of additional XBOFs: * up to 115+48 XBOFS 163 * regular BOF 1 * A-field 1 * C-field 1 * I-field, IRDA_MTU, all escaped 4096 * FCS (16 bit at SIR, escaped) 4 * EOF 1 * AFAICS nothing in IrLAP guarantees A/C field not to need escaping * (f.e. 0xc0/0xc1 - i.e. BOF/EOF - are legal values there) so in the * worst case we have 4269 bytes total frame size. * However, the VLSI uses 12 bits only for all buffer length values, * which limits the maximum useable buffer size <= 4095. * Note this is not a limitation in the receive case because we use * the SIR filtering mode where the hw unwraps the frame and only the * bare packet+fcs is stored into the buffer - in contrast to the SIR * tx case where we have to pass frame-wrapped packets to the hw. * If this would ever become an issue in real life, the only workaround * I see would be using the legacy UART emulation in SIR mode. */ #define XFER_BUF_SIZE MAX_PACKET_LENGTH /* ------------------------------------------ */ /* VLSI_PIO_RCVBCNT: Receive Byte Count Register (u16, ro) */ /* receive packet counter gets incremented on every non-filtered * byte which was put in the receive fifo and reset for each * new packet. Used to decide whether we are just in the middle * of receiving */ /* better apply the [11:0] mask when reading, as some docs say the * reserved [15:12] would return 1 when reading - which is wrong AFAICS */ #define RCVBCNT_MASK 0x0fff /******************************************************************/ /* descriptors for rx/tx ring * * accessed by hardware - don't change! * * the descriptor is owned by hardware, when the ACTIVE status bit * is set and nothing (besides reading status to test the bit) * shall be done. The bit gets cleared by hw, when the descriptor * gets closed. Premature reaping of descriptors owned be the chip * can be achieved by disabling IRCFG_MSTR * * Attention: Writing addr overwrites status! * * ### FIXME: depends on endianess (but there ain't no non-i586 ob800 ;-) */ struct ring_descr_hw { volatile __le16 rd_count; /* tx/rx count [11:0] */ __le16 reserved; union { __le32 addr; /* [23:0] of the buffer's busaddress */ struct { u8 addr_res[3]; volatile u8 status; /* descriptor status */ } __attribute__((packed)) rd_s; } __attribute((packed)) rd_u; } __attribute__ ((packed)); #define rd_addr rd_u.addr #define rd_status rd_u.rd_s.status /* ring descriptor status bits */ #define RD_ACTIVE 0x80 /* descriptor owned by hw (both TX,RX) */ /* TX ring descriptor status */ #define RD_TX_DISCRC 0x40 /* do not send CRC (for SIR) */ #define RD_TX_BADCRC 0x20 /* force a bad CRC */ #define RD_TX_PULSE 0x10 /* send indication pulse after this frame (MIR/FIR) */ #define RD_TX_FRCEUND 0x08 /* force underrun */ #define RD_TX_CLRENTX 0x04 /* clear ENTX after this frame */ #define RD_TX_UNDRN 0x01 /* TX fifo underrun (probably PCI problem) */ /* RX ring descriptor status */ #define RD_RX_PHYERR 0x40 /* physical encoding error */ #define RD_RX_CRCERR 0x20 /* CRC error (MIR/FIR) */ #define RD_RX_LENGTH 0x10 /* frame exceeds buffer length */ #define RD_RX_OVER 0x08 /* RX fifo overrun (probably PCI problem) */ #define RD_RX_SIRBAD 0x04 /* EOF missing: BOF follows BOF (SIR, filtered) */ #define RD_RX_ERROR 0x7c /* any error in received frame */ /* the memory required to hold the 2 descriptor rings */ #define HW_RING_AREA_SIZE (2 * MAX_RING_DESCR * sizeof(struct ring_descr_hw)) /******************************************************************/ /* sw-ring descriptors consists of a bus-mapped transfer buffer with * associated skb and a pointer to the hw entry descriptor */ struct ring_descr { struct ring_descr_hw *hw; struct sk_buff *skb; void *buf; }; /* wrappers for operations on hw-exposed ring descriptors * access to the hw-part of the descriptors must use these. */ static inline int rd_is_active(struct ring_descr *rd) { return ((rd->hw->rd_status & RD_ACTIVE) != 0); } static inline void rd_activate(struct ring_descr *rd) { rd->hw->rd_status |= RD_ACTIVE; } static inline void rd_set_status(struct ring_descr *rd, u8 s) { rd->hw->rd_status = s; /* may pass ownership to the hardware */ } static inline void rd_set_addr_status(struct ring_descr *rd, dma_addr_t a, u8 s) { /* order is important for two reasons: * - overlayed: writing addr overwrites status * - we want to write status last so we have valid address in * case status has RD_ACTIVE set */ if ((a & ~DMA_MASK_MSTRPAGE)>>24 != MSTRPAGE_VALUE) { IRDA_ERROR("%s: pci busaddr inconsistency!\n", __func__); dump_stack(); return; } a &= DMA_MASK_MSTRPAGE; /* clear highbyte to make sure we won't write * to status - just in case MSTRPAGE_VALUE!=0 */ rd->hw->rd_addr = cpu_to_le32(a); wmb(); rd_set_status(rd, s); /* may pass ownership to the hardware */ } static inline void rd_set_count(struct ring_descr *rd, u16 c) { rd->hw->rd_count = cpu_to_le16(c); } static inline u8 rd_get_status(struct ring_descr *rd) { return rd->hw->rd_status; } static inline dma_addr_t rd_get_addr(struct ring_descr *rd) { dma_addr_t a; a = le32_to_cpu(rd->hw->rd_addr); return (a & DMA_MASK_MSTRPAGE) | (MSTRPAGE_VALUE << 24); } static inline u16 rd_get_count(struct ring_descr *rd) { return le16_to_cpu(rd->hw->rd_count); } /******************************************************************/ /* sw descriptor rings for rx, tx: * * operations follow producer-consumer paradigm, with the hw * in the middle doing the processing. * ring size must be power of two. * * producer advances r->tail after inserting for processing * consumer advances r->head after removing processed rd * ring is empty if head==tail / full if (tail+1)==head */ struct vlsi_ring { struct pci_dev *pdev; int dir; unsigned len; unsigned size; unsigned mask; atomic_t head, tail; struct ring_descr *rd; }; /* ring processing helpers */ static inline struct ring_descr *ring_last(struct vlsi_ring *r) { int t; t = atomic_read(&r->tail) & r->mask; return (((t+1) & r->mask) == (atomic_read(&r->head) & r->mask)) ? NULL : &r->rd[t]; } static inline struct ring_descr *ring_put(struct vlsi_ring *r) { atomic_inc(&r->tail); return ring_last(r); } static inline struct ring_descr *ring_first(struct vlsi_ring *r) { int h; h = atomic_read(&r->head) & r->mask; return (h == (atomic_read(&r->tail) & r->mask)) ? NULL : &r->rd[h]; } static inline struct ring_descr *ring_get(struct vlsi_ring *r) { atomic_inc(&r->head); return ring_first(r); } /******************************************************************/ /* our private compound VLSI-PCI-IRDA device information */ typedef struct vlsi_irda_dev { struct pci_dev *pdev; struct net_device_stats stats; struct irlap_cb *irlap; struct qos_info qos; unsigned mode; int baud, new_baud; dma_addr_t busaddr; void *virtaddr; struct vlsi_ring *tx_ring, *rx_ring; struct timeval last_rx; spinlock_t lock; struct mutex mtx; u8 resume_ok; struct proc_dir_entry *proc_entry; } vlsi_irda_dev_t; /********************************************************/ /* the remapped error flags we use for returning from frame * post-processing in vlsi_process_tx/rx() after it was completed * by the hardware. These functions either return the >=0 number * of transfered bytes in case of success or the negative (-) * of the or'ed error flags. */ #define VLSI_TX_DROP 0x0001 #define VLSI_TX_FIFO 0x0002 #define VLSI_RX_DROP 0x0100 #define VLSI_RX_OVER 0x0200 #define VLSI_RX_LENGTH 0x0400 #define VLSI_RX_FRAME 0x0800 #define VLSI_RX_CRC 0x1000 /********************************************************/ #endif /* IRDA_VLSI_FIR_H */ |