tjh.dev / kernel
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kernel os linux
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kernel / drivers / tty / serial / sn_console.c
at v3.7-rc7 1087 lines 30 kB view raw
1/* 2 * C-Brick Serial Port (and console) driver for SGI Altix machines. 3 * 4 * This driver is NOT suitable for talking to the l1-controller for 5 * anything other than 'console activities' --- please use the l1 6 * driver for that. 7 * 8 * 9 * Copyright (c) 2004-2006 Silicon Graphics, Inc. All Rights Reserved. 10 * 11 * This program is free software; you can redistribute it and/or modify it 12 * under the terms of version 2 of the GNU General Public License 13 * as published by the Free Software Foundation. 14 * 15 * This program is distributed in the hope that it would be useful, but 16 * WITHOUT ANY WARRANTY; without even the implied warranty of 17 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. 18 * 19 * Further, this software is distributed without any warranty that it is 20 * free of the rightful claim of any third person regarding infringement 21 * or the like. Any license provided herein, whether implied or 22 * otherwise, applies only to this software file. Patent licenses, if 23 * any, provided herein do not apply to combinations of this program with 24 * other software, or any other product whatsoever. 25 * 26 * You should have received a copy of the GNU General Public 27 * License along with this program; if not, write the Free Software 28 * Foundation, Inc., 59 Temple Place - Suite 330, Boston MA 02111-1307, USA. 29 * 30 * Contact information: Silicon Graphics, Inc., 1500 Crittenden Lane, 31 * Mountain View, CA 94043, or: 32 * 33 * http://www.sgi.com 34 * 35 * For further information regarding this notice, see: 36 * 37 * http://oss.sgi.com/projects/GenInfo/NoticeExplan 38 */ 39 40#include <linux/interrupt.h> 41#include <linux/tty.h> 42#include <linux/tty_flip.h> 43#include <linux/serial.h> 44#include <linux/console.h> 45#include <linux/module.h> 46#include <linux/sysrq.h> 47#include <linux/circ_buf.h> 48#include <linux/serial_reg.h> 49#include <linux/delay.h> /* for mdelay */ 50#include <linux/miscdevice.h> 51#include <linux/serial_core.h> 52 53#include <asm/io.h> 54#include <asm/sn/simulator.h> 55#include <asm/sn/sn_sal.h> 56 57/* number of characters we can transmit to the SAL console at a time */ 58#define SN_SAL_MAX_CHARS 120 59 60/* 64K, when we're asynch, it must be at least printk's LOG_BUF_LEN to 61 * avoid losing chars, (always has to be a power of 2) */ 62#define SN_SAL_BUFFER_SIZE (64 * (1 << 10)) 63 64#define SN_SAL_UART_FIFO_DEPTH 16 65#define SN_SAL_UART_FIFO_SPEED_CPS (9600/10) 66 67/* sn_transmit_chars() calling args */ 68#define TRANSMIT_BUFFERED 0 69#define TRANSMIT_RAW 1 70 71/* To use dynamic numbers only and not use the assigned major and minor, 72 * define the following.. */ 73 /* #define USE_DYNAMIC_MINOR 1 *//* use dynamic minor number */ 74#define USE_DYNAMIC_MINOR 0 /* Don't rely on misc_register dynamic minor */ 75 76/* Device name we're using */ 77#define DEVICE_NAME "ttySG" 78#define DEVICE_NAME_DYNAMIC "ttySG0" /* need full name for misc_register */ 79/* The major/minor we are using, ignored for USE_DYNAMIC_MINOR */ 80#define DEVICE_MAJOR 204 81#define DEVICE_MINOR 40 82 83#ifdef CONFIG_MAGIC_SYSRQ 84static char sysrq_serial_str[] = "\eSYS"; 85static char *sysrq_serial_ptr = sysrq_serial_str; 86static unsigned long sysrq_requested; 87#endif /* CONFIG_MAGIC_SYSRQ */ 88 89/* 90 * Port definition - this kinda drives it all 91 */ 92struct sn_cons_port { 93 struct timer_list sc_timer; 94 struct uart_port sc_port; 95 struct sn_sal_ops { 96 int (*sal_puts_raw) (const char *s, int len); 97 int (*sal_puts) (const char *s, int len); 98 int (*sal_getc) (void); 99 int (*sal_input_pending) (void); 100 void (*sal_wakeup_transmit) (struct sn_cons_port *, int); 101 } *sc_ops; 102 unsigned long sc_interrupt_timeout; 103 int sc_is_asynch; 104}; 105 106static struct sn_cons_port sal_console_port; 107static int sn_process_input; 108 109/* Only used if USE_DYNAMIC_MINOR is set to 1 */ 110static struct miscdevice misc; /* used with misc_register for dynamic */ 111 112extern void early_sn_setup(void); 113 114#undef DEBUG 115#ifdef DEBUG 116static int sn_debug_printf(const char *fmt, ...); 117#define DPRINTF(x...) sn_debug_printf(x) 118#else 119#define DPRINTF(x...) do { } while (0) 120#endif 121 122/* Prototypes */ 123static int snt_hw_puts_raw(const char *, int); 124static int snt_hw_puts_buffered(const char *, int); 125static int snt_poll_getc(void); 126static int snt_poll_input_pending(void); 127static int snt_intr_getc(void); 128static int snt_intr_input_pending(void); 129static void sn_transmit_chars(struct sn_cons_port *, int); 130 131/* A table for polling: 132 */ 133static struct sn_sal_ops poll_ops = { 134 .sal_puts_raw = snt_hw_puts_raw, 135 .sal_puts = snt_hw_puts_raw, 136 .sal_getc = snt_poll_getc, 137 .sal_input_pending = snt_poll_input_pending 138}; 139 140/* A table for interrupts enabled */ 141static struct sn_sal_ops intr_ops = { 142 .sal_puts_raw = snt_hw_puts_raw, 143 .sal_puts = snt_hw_puts_buffered, 144 .sal_getc = snt_intr_getc, 145 .sal_input_pending = snt_intr_input_pending, 146 .sal_wakeup_transmit = sn_transmit_chars 147}; 148 149/* the console does output in two distinctly different ways: 150 * synchronous (raw) and asynchronous (buffered). initially, early_printk 151 * does synchronous output. any data written goes directly to the SAL 152 * to be output (incidentally, it is internally buffered by the SAL) 153 * after interrupts and timers are initialized and available for use, 154 * the console init code switches to asynchronous output. this is 155 * also the earliest opportunity to begin polling for console input. 156 * after console initialization, console output and tty (serial port) 157 * output is buffered and sent to the SAL asynchronously (either by 158 * timer callback or by UART interrupt) */ 159 160/* routines for running the console in polling mode */ 161 162/** 163 * snt_poll_getc - Get a character from the console in polling mode 164 * 165 */ 166static int snt_poll_getc(void) 167{ 168 int ch; 169 170 ia64_sn_console_getc(&ch); 171 return ch; 172} 173 174/** 175 * snt_poll_input_pending - Check if any input is waiting - polling mode. 176 * 177 */ 178static int snt_poll_input_pending(void) 179{ 180 int status, input; 181 182 status = ia64_sn_console_check(&input); 183 return !status && input; 184} 185 186/* routines for an interrupt driven console (normal) */ 187 188/** 189 * snt_intr_getc - Get a character from the console, interrupt mode 190 * 191 */ 192static int snt_intr_getc(void) 193{ 194 return ia64_sn_console_readc(); 195} 196 197/** 198 * snt_intr_input_pending - Check if input is pending, interrupt mode 199 * 200 */ 201static int snt_intr_input_pending(void) 202{ 203 return ia64_sn_console_intr_status() & SAL_CONSOLE_INTR_RECV; 204} 205 206/* these functions are polled and interrupt */ 207 208/** 209 * snt_hw_puts_raw - Send raw string to the console, polled or interrupt mode 210 * @s: String 211 * @len: Length 212 * 213 */ 214static int snt_hw_puts_raw(const char *s, int len) 215{ 216 /* this will call the PROM and not return until this is done */ 217 return ia64_sn_console_putb(s, len); 218} 219 220/** 221 * snt_hw_puts_buffered - Send string to console, polled or interrupt mode 222 * @s: String 223 * @len: Length 224 * 225 */ 226static int snt_hw_puts_buffered(const char *s, int len) 227{ 228 /* queue data to the PROM */ 229 return ia64_sn_console_xmit_chars((char *)s, len); 230} 231 232/* uart interface structs 233 * These functions are associated with the uart_port that the serial core 234 * infrastructure calls. 235 * 236 * Note: Due to how the console works, many routines are no-ops. 237 */ 238 239/** 240 * snp_type - What type of console are we? 241 * @port: Port to operate with (we ignore since we only have one port) 242 * 243 */ 244static const char *snp_type(struct uart_port *port) 245{ 246 return ("SGI SN L1"); 247} 248 249/** 250 * snp_tx_empty - Is the transmitter empty? We pretend we're always empty 251 * @port: Port to operate on (we ignore since we only have one port) 252 * 253 */ 254static unsigned int snp_tx_empty(struct uart_port *port) 255{ 256 return 1; 257} 258 259/** 260 * snp_stop_tx - stop the transmitter - no-op for us 261 * @port: Port to operat eon - we ignore - no-op function 262 * 263 */ 264static void snp_stop_tx(struct uart_port *port) 265{ 266} 267 268/** 269 * snp_release_port - Free i/o and resources for port - no-op for us 270 * @port: Port to operate on - we ignore - no-op function 271 * 272 */ 273static void snp_release_port(struct uart_port *port) 274{ 275} 276 277/** 278 * snp_enable_ms - Force modem status interrupts on - no-op for us 279 * @port: Port to operate on - we ignore - no-op function 280 * 281 */ 282static void snp_enable_ms(struct uart_port *port) 283{ 284} 285 286/** 287 * snp_shutdown - shut down the port - free irq and disable - no-op for us 288 * @port: Port to shut down - we ignore 289 * 290 */ 291static void snp_shutdown(struct uart_port *port) 292{ 293} 294 295/** 296 * snp_set_mctrl - set control lines (dtr, rts, etc) - no-op for our console 297 * @port: Port to operate on - we ignore 298 * @mctrl: Lines to set/unset - we ignore 299 * 300 */ 301static void snp_set_mctrl(struct uart_port *port, unsigned int mctrl) 302{ 303} 304 305/** 306 * snp_get_mctrl - get contorl line info, we just return a static value 307 * @port: port to operate on - we only have one port so we ignore this 308 * 309 */ 310static unsigned int snp_get_mctrl(struct uart_port *port) 311{ 312 return TIOCM_CAR | TIOCM_RNG | TIOCM_DSR | TIOCM_CTS; 313} 314 315/** 316 * snp_stop_rx - Stop the receiver - we ignor ethis 317 * @port: Port to operate on - we ignore 318 * 319 */ 320static void snp_stop_rx(struct uart_port *port) 321{ 322} 323 324/** 325 * snp_start_tx - Start transmitter 326 * @port: Port to operate on 327 * 328 */ 329static void snp_start_tx(struct uart_port *port) 330{ 331 if (sal_console_port.sc_ops->sal_wakeup_transmit) 332 sal_console_port.sc_ops->sal_wakeup_transmit(&sal_console_port, 333 TRANSMIT_BUFFERED); 334 335} 336 337/** 338 * snp_break_ctl - handle breaks - ignored by us 339 * @port: Port to operate on 340 * @break_state: Break state 341 * 342 */ 343static void snp_break_ctl(struct uart_port *port, int break_state) 344{ 345} 346 347/** 348 * snp_startup - Start up the serial port - always return 0 (We're always on) 349 * @port: Port to operate on 350 * 351 */ 352static int snp_startup(struct uart_port *port) 353{ 354 return 0; 355} 356 357/** 358 * snp_set_termios - set termios stuff - we ignore these 359 * @port: port to operate on 360 * @termios: New settings 361 * @termios: Old 362 * 363 */ 364static void 365snp_set_termios(struct uart_port *port, struct ktermios *termios, 366 struct ktermios *old) 367{ 368} 369 370/** 371 * snp_request_port - allocate resources for port - ignored by us 372 * @port: port to operate on 373 * 374 */ 375static int snp_request_port(struct uart_port *port) 376{ 377 return 0; 378} 379 380/** 381 * snp_config_port - allocate resources, set up - we ignore, we're always on 382 * @port: Port to operate on 383 * @flags: flags used for port setup 384 * 385 */ 386static void snp_config_port(struct uart_port *port, int flags) 387{ 388} 389 390/* Associate the uart functions above - given to serial core */ 391 392static struct uart_ops sn_console_ops = { 393 .tx_empty = snp_tx_empty, 394 .set_mctrl = snp_set_mctrl, 395 .get_mctrl = snp_get_mctrl, 396 .stop_tx = snp_stop_tx, 397 .start_tx = snp_start_tx, 398 .stop_rx = snp_stop_rx, 399 .enable_ms = snp_enable_ms, 400 .break_ctl = snp_break_ctl, 401 .startup = snp_startup, 402 .shutdown = snp_shutdown, 403 .set_termios = snp_set_termios, 404 .pm = NULL, 405 .type = snp_type, 406 .release_port = snp_release_port, 407 .request_port = snp_request_port, 408 .config_port = snp_config_port, 409 .verify_port = NULL, 410}; 411 412/* End of uart struct functions and defines */ 413 414#ifdef DEBUG 415 416/** 417 * sn_debug_printf - close to hardware debugging printf 418 * @fmt: printf format 419 * 420 * This is as "close to the metal" as we can get, used when the driver 421 * itself may be broken. 422 * 423 */ 424static int sn_debug_printf(const char *fmt, ...) 425{ 426 static char printk_buf[1024]; 427 int printed_len; 428 va_list args; 429 430 va_start(args, fmt); 431 printed_len = vsnprintf(printk_buf, sizeof(printk_buf), fmt, args); 432 433 if (!sal_console_port.sc_ops) { 434 sal_console_port.sc_ops = &poll_ops; 435 early_sn_setup(); 436 } 437 sal_console_port.sc_ops->sal_puts_raw(printk_buf, printed_len); 438 439 va_end(args); 440 return printed_len; 441} 442#endif /* DEBUG */ 443 444/* 445 * Interrupt handling routines. 446 */ 447 448/** 449 * sn_receive_chars - Grab characters, pass them to tty layer 450 * @port: Port to operate on 451 * @flags: irq flags 452 * 453 * Note: If we're not registered with the serial core infrastructure yet, 454 * we don't try to send characters to it... 455 * 456 */ 457static void 458sn_receive_chars(struct sn_cons_port *port, unsigned long flags) 459{ 460 int ch; 461 struct tty_struct *tty; 462 463 if (!port) { 464 printk(KERN_ERR "sn_receive_chars - port NULL so can't receive\n"); 465 return; 466 } 467 468 if (!port->sc_ops) { 469 printk(KERN_ERR "sn_receive_chars - port->sc_ops NULL so can't receive\n"); 470 return; 471 } 472 473 if (port->sc_port.state) { 474 /* The serial_core stuffs are initialized, use them */ 475 tty = port->sc_port.state->port.tty; 476 } 477 else { 478 /* Not registered yet - can't pass to tty layer. */ 479 tty = NULL; 480 } 481 482 while (port->sc_ops->sal_input_pending()) { 483 ch = port->sc_ops->sal_getc(); 484 if (ch < 0) { 485 printk(KERN_ERR "sn_console: An error occurred while " 486 "obtaining data from the console (0x%0x)\n", ch); 487 break; 488 } 489#ifdef CONFIG_MAGIC_SYSRQ 490 if (sysrq_requested) { 491 unsigned long sysrq_timeout = sysrq_requested + HZ*5; 492 493 sysrq_requested = 0; 494 if (ch && time_before(jiffies, sysrq_timeout)) { 495 spin_unlock_irqrestore(&port->sc_port.lock, flags); 496 handle_sysrq(ch); 497 spin_lock_irqsave(&port->sc_port.lock, flags); 498 /* ignore actual sysrq command char */ 499 continue; 500 } 501 } 502 if (ch == *sysrq_serial_ptr) { 503 if (!(*++sysrq_serial_ptr)) { 504 sysrq_requested = jiffies; 505 sysrq_serial_ptr = sysrq_serial_str; 506 } 507 /* 508 * ignore the whole sysrq string except for the 509 * leading escape 510 */ 511 if (ch != '\e') 512 continue; 513 } 514 else 515 sysrq_serial_ptr = sysrq_serial_str; 516#endif /* CONFIG_MAGIC_SYSRQ */ 517 518 /* record the character to pass up to the tty layer */ 519 if (tty) { 520 if(tty_insert_flip_char(tty, ch, TTY_NORMAL) == 0) 521 break; 522 } 523 port->sc_port.icount.rx++; 524 } 525 526 if (tty) 527 tty_flip_buffer_push(tty); 528} 529 530/** 531 * sn_transmit_chars - grab characters from serial core, send off 532 * @port: Port to operate on 533 * @raw: Transmit raw or buffered 534 * 535 * Note: If we're early, before we're registered with serial core, the 536 * writes are going through sn_sal_console_write because that's how 537 * register_console has been set up. We currently could have asynch 538 * polls calling this function due to sn_sal_switch_to_asynch but we can 539 * ignore them until we register with the serial core stuffs. 540 * 541 */ 542static void sn_transmit_chars(struct sn_cons_port *port, int raw) 543{ 544 int xmit_count, tail, head, loops, ii; 545 int result; 546 char *start; 547 struct circ_buf *xmit; 548 549 if (!port) 550 return; 551 552 BUG_ON(!port->sc_is_asynch); 553 554 if (port->sc_port.state) { 555 /* We're initialized, using serial core infrastructure */ 556 xmit = &port->sc_port.state->xmit; 557 } else { 558 /* Probably sn_sal_switch_to_asynch has been run but serial core isn't 559 * initialized yet. Just return. Writes are going through 560 * sn_sal_console_write (due to register_console) at this time. 561 */ 562 return; 563 } 564 565 if (uart_circ_empty(xmit) || uart_tx_stopped(&port->sc_port)) { 566 /* Nothing to do. */ 567 ia64_sn_console_intr_disable(SAL_CONSOLE_INTR_XMIT); 568 return; 569 } 570 571 head = xmit->head; 572 tail = xmit->tail; 573 start = &xmit->buf[tail]; 574 575 /* twice around gets the tail to the end of the buffer and 576 * then to the head, if needed */ 577 loops = (head < tail) ? 2 : 1; 578 579 for (ii = 0; ii < loops; ii++) { 580 xmit_count = (head < tail) ? 581 (UART_XMIT_SIZE - tail) : (head - tail); 582 583 if (xmit_count > 0) { 584 if (raw == TRANSMIT_RAW) 585 result = 586 port->sc_ops->sal_puts_raw(start, 587 xmit_count); 588 else 589 result = 590 port->sc_ops->sal_puts(start, xmit_count); 591#ifdef DEBUG 592 if (!result) 593 DPRINTF("`"); 594#endif 595 if (result > 0) { 596 xmit_count -= result; 597 port->sc_port.icount.tx += result; 598 tail += result; 599 tail &= UART_XMIT_SIZE - 1; 600 xmit->tail = tail; 601 start = &xmit->buf[tail]; 602 } 603 } 604 } 605 606 if (uart_circ_chars_pending(xmit) < WAKEUP_CHARS) 607 uart_write_wakeup(&port->sc_port); 608 609 if (uart_circ_empty(xmit)) 610 snp_stop_tx(&port->sc_port); /* no-op for us */ 611} 612 613/** 614 * sn_sal_interrupt - Handle console interrupts 615 * @irq: irq #, useful for debug statements 616 * @dev_id: our pointer to our port (sn_cons_port which contains the uart port) 617 * 618 */ 619static irqreturn_t sn_sal_interrupt(int irq, void *dev_id) 620{ 621 struct sn_cons_port *port = (struct sn_cons_port *)dev_id; 622 unsigned long flags; 623 int status = ia64_sn_console_intr_status(); 624 625 if (!port) 626 return IRQ_NONE; 627 628 spin_lock_irqsave(&port->sc_port.lock, flags); 629 if (status & SAL_CONSOLE_INTR_RECV) { 630 sn_receive_chars(port, flags); 631 } 632 if (status & SAL_CONSOLE_INTR_XMIT) { 633 sn_transmit_chars(port, TRANSMIT_BUFFERED); 634 } 635 spin_unlock_irqrestore(&port->sc_port.lock, flags); 636 return IRQ_HANDLED; 637} 638 639/** 640 * sn_sal_timer_poll - this function handles polled console mode 641 * @data: A pointer to our sn_cons_port (which contains the uart port) 642 * 643 * data is the pointer that init_timer will store for us. This function is 644 * associated with init_timer to see if there is any console traffic. 645 * Obviously not used in interrupt mode 646 * 647 */ 648static void sn_sal_timer_poll(unsigned long data) 649{ 650 struct sn_cons_port *port = (struct sn_cons_port *)data; 651 unsigned long flags; 652 653 if (!port) 654 return; 655 656 if (!port->sc_port.irq) { 657 spin_lock_irqsave(&port->sc_port.lock, flags); 658 if (sn_process_input) 659 sn_receive_chars(port, flags); 660 sn_transmit_chars(port, TRANSMIT_RAW); 661 spin_unlock_irqrestore(&port->sc_port.lock, flags); 662 mod_timer(&port->sc_timer, 663 jiffies + port->sc_interrupt_timeout); 664 } 665} 666 667/* 668 * Boot-time initialization code 669 */ 670 671/** 672 * sn_sal_switch_to_asynch - Switch to async mode (as opposed to synch) 673 * @port: Our sn_cons_port (which contains the uart port) 674 * 675 * So this is used by sn_sal_serial_console_init (early on, before we're 676 * registered with serial core). It's also used by sn_sal_module_init 677 * right after we've registered with serial core. The later only happens 678 * if we didn't already come through here via sn_sal_serial_console_init. 679 * 680 */ 681static void __init sn_sal_switch_to_asynch(struct sn_cons_port *port) 682{ 683 unsigned long flags; 684 685 if (!port) 686 return; 687 688 DPRINTF("sn_console: about to switch to asynchronous console\n"); 689 690 /* without early_printk, we may be invoked late enough to race 691 * with other cpus doing console IO at this point, however 692 * console interrupts will never be enabled */ 693 spin_lock_irqsave(&port->sc_port.lock, flags); 694 695 /* early_printk invocation may have done this for us */ 696 if (!port->sc_ops) 697 port->sc_ops = &poll_ops; 698 699 /* we can't turn on the console interrupt (as request_irq 700 * calls kmalloc, which isn't set up yet), so we rely on a 701 * timer to poll for input and push data from the console 702 * buffer. 703 */ 704 init_timer(&port->sc_timer); 705 port->sc_timer.function = sn_sal_timer_poll; 706 port->sc_timer.data = (unsigned long)port; 707 708 if (IS_RUNNING_ON_SIMULATOR()) 709 port->sc_interrupt_timeout = 6; 710 else { 711 /* 960cps / 16 char FIFO = 60HZ 712 * HZ / (SN_SAL_FIFO_SPEED_CPS / SN_SAL_FIFO_DEPTH) */ 713 port->sc_interrupt_timeout = 714 HZ * SN_SAL_UART_FIFO_DEPTH / SN_SAL_UART_FIFO_SPEED_CPS; 715 } 716 mod_timer(&port->sc_timer, jiffies + port->sc_interrupt_timeout); 717 718 port->sc_is_asynch = 1; 719 spin_unlock_irqrestore(&port->sc_port.lock, flags); 720} 721 722/** 723 * sn_sal_switch_to_interrupts - Switch to interrupt driven mode 724 * @port: Our sn_cons_port (which contains the uart port) 725 * 726 * In sn_sal_module_init, after we're registered with serial core and 727 * the port is added, this function is called to switch us to interrupt 728 * mode. We were previously in asynch/polling mode (using init_timer). 729 * 730 * We attempt to switch to interrupt mode here by calling 731 * request_irq. If that works out, we enable receive interrupts. 732 */ 733static void __init sn_sal_switch_to_interrupts(struct sn_cons_port *port) 734{ 735 unsigned long flags; 736 737 if (port) { 738 DPRINTF("sn_console: switching to interrupt driven console\n"); 739 740 if (request_irq(SGI_UART_VECTOR, sn_sal_interrupt, 741 IRQF_SHARED, 742 "SAL console driver", port) >= 0) { 743 spin_lock_irqsave(&port->sc_port.lock, flags); 744 port->sc_port.irq = SGI_UART_VECTOR; 745 port->sc_ops = &intr_ops; 746 irq_set_handler(port->sc_port.irq, handle_level_irq); 747 748 /* turn on receive interrupts */ 749 ia64_sn_console_intr_enable(SAL_CONSOLE_INTR_RECV); 750 spin_unlock_irqrestore(&port->sc_port.lock, flags); 751 } 752 else { 753 printk(KERN_INFO 754 "sn_console: console proceeding in polled mode\n"); 755 } 756 } 757} 758 759/* 760 * Kernel console definitions 761 */ 762 763static void sn_sal_console_write(struct console *, const char *, unsigned); 764static int sn_sal_console_setup(struct console *, char *); 765static struct uart_driver sal_console_uart; 766extern struct tty_driver *uart_console_device(struct console *, int *); 767 768static struct console sal_console = { 769 .name = DEVICE_NAME, 770 .write = sn_sal_console_write, 771 .device = uart_console_device, 772 .setup = sn_sal_console_setup, 773 .index = -1, /* unspecified */ 774 .data = &sal_console_uart, 775}; 776 777#define SAL_CONSOLE &sal_console 778 779static struct uart_driver sal_console_uart = { 780 .owner = THIS_MODULE, 781 .driver_name = "sn_console", 782 .dev_name = DEVICE_NAME, 783 .major = 0, /* major/minor set at registration time per USE_DYNAMIC_MINOR */ 784 .minor = 0, 785 .nr = 1, /* one port */ 786 .cons = SAL_CONSOLE, 787}; 788 789/** 790 * sn_sal_module_init - When the kernel loads us, get us rolling w/ serial core 791 * 792 * Before this is called, we've been printing kernel messages in a special 793 * early mode not making use of the serial core infrastructure. When our 794 * driver is loaded for real, we register the driver and port with serial 795 * core and try to enable interrupt driven mode. 796 * 797 */ 798static int __init sn_sal_module_init(void) 799{ 800 int retval; 801 802 if (!ia64_platform_is("sn2")) 803 return 0; 804 805 printk(KERN_INFO "sn_console: Console driver init\n"); 806 807 if (USE_DYNAMIC_MINOR == 1) { 808 misc.minor = MISC_DYNAMIC_MINOR; 809 misc.name = DEVICE_NAME_DYNAMIC; 810 retval = misc_register(&misc); 811 if (retval != 0) { 812 printk(KERN_WARNING "Failed to register console " 813 "device using misc_register.\n"); 814 return -ENODEV; 815 } 816 sal_console_uart.major = MISC_MAJOR; 817 sal_console_uart.minor = misc.minor; 818 } else { 819 sal_console_uart.major = DEVICE_MAJOR; 820 sal_console_uart.minor = DEVICE_MINOR; 821 } 822 823 /* We register the driver and the port before switching to interrupts 824 * or async above so the proper uart structures are populated */ 825 826 if (uart_register_driver(&sal_console_uart) < 0) { 827 printk 828 ("ERROR sn_sal_module_init failed uart_register_driver, line %d\n", 829 __LINE__); 830 return -ENODEV; 831 } 832 833 spin_lock_init(&sal_console_port.sc_port.lock); 834 835 /* Setup the port struct with the minimum needed */ 836 sal_console_port.sc_port.membase = (char *)1; /* just needs to be non-zero */ 837 sal_console_port.sc_port.type = PORT_16550A; 838 sal_console_port.sc_port.fifosize = SN_SAL_MAX_CHARS; 839 sal_console_port.sc_port.ops = &sn_console_ops; 840 sal_console_port.sc_port.line = 0; 841 842 if (uart_add_one_port(&sal_console_uart, &sal_console_port.sc_port) < 0) { 843 /* error - not sure what I'd do - so I'll do nothing */ 844 printk(KERN_ERR "%s: unable to add port\n", __func__); 845 } 846 847 /* when this driver is compiled in, the console initialization 848 * will have already switched us into asynchronous operation 849 * before we get here through the module initcalls */ 850 if (!sal_console_port.sc_is_asynch) { 851 sn_sal_switch_to_asynch(&sal_console_port); 852 } 853 854 /* at this point (module_init) we can try to turn on interrupts */ 855 if (!IS_RUNNING_ON_SIMULATOR()) { 856 sn_sal_switch_to_interrupts(&sal_console_port); 857 } 858 sn_process_input = 1; 859 return 0; 860} 861 862/** 863 * sn_sal_module_exit - When we're unloaded, remove the driver/port 864 * 865 */ 866static void __exit sn_sal_module_exit(void) 867{ 868 del_timer_sync(&sal_console_port.sc_timer); 869 uart_remove_one_port(&sal_console_uart, &sal_console_port.sc_port); 870 uart_unregister_driver(&sal_console_uart); 871 misc_deregister(&misc); 872} 873 874module_init(sn_sal_module_init); 875module_exit(sn_sal_module_exit); 876 877/** 878 * puts_raw_fixed - sn_sal_console_write helper for adding \r's as required 879 * @puts_raw : puts function to do the writing 880 * @s: input string 881 * @count: length 882 * 883 * We need a \r ahead of every \n for direct writes through 884 * ia64_sn_console_putb (what sal_puts_raw below actually does). 885 * 886 */ 887 888static void puts_raw_fixed(int (*puts_raw) (const char *s, int len), 889 const char *s, int count) 890{ 891 const char *s1; 892 893 /* Output '\r' before each '\n' */ 894 while ((s1 = memchr(s, '\n', count)) != NULL) { 895 puts_raw(s, s1 - s); 896 puts_raw("\r\n", 2); 897 count -= s1 + 1 - s; 898 s = s1 + 1; 899 } 900 puts_raw(s, count); 901} 902 903/** 904 * sn_sal_console_write - Print statements before serial core available 905 * @console: Console to operate on - we ignore since we have just one 906 * @s: String to send 907 * @count: length 908 * 909 * This is referenced in the console struct. It is used for early 910 * console printing before we register with serial core and for things 911 * such as kdb. The console_lock must be held when we get here. 912 * 913 * This function has some code for trying to print output even if the lock 914 * is held. We try to cover the case where a lock holder could have died. 915 * We don't use this special case code if we're not registered with serial 916 * core yet. After we're registered with serial core, the only time this 917 * function would be used is for high level kernel output like magic sys req, 918 * kdb, and printk's. 919 */ 920static void 921sn_sal_console_write(struct console *co, const char *s, unsigned count) 922{ 923 unsigned long flags = 0; 924 struct sn_cons_port *port = &sal_console_port; 925 static int stole_lock = 0; 926 927 BUG_ON(!port->sc_is_asynch); 928 929 /* We can't look at the xmit buffer if we're not registered with serial core 930 * yet. So only do the fancy recovery after registering 931 */ 932 if (!port->sc_port.state) { 933 /* Not yet registered with serial core - simple case */ 934 puts_raw_fixed(port->sc_ops->sal_puts_raw, s, count); 935 return; 936 } 937 938 /* somebody really wants this output, might be an 939 * oops, kdb, panic, etc. make sure they get it. */ 940 if (spin_is_locked(&port->sc_port.lock)) { 941 int lhead = port->sc_port.state->xmit.head; 942 int ltail = port->sc_port.state->xmit.tail; 943 int counter, got_lock = 0; 944 945 /* 946 * We attempt to determine if someone has died with the 947 * lock. We wait ~20 secs after the head and tail ptrs 948 * stop moving and assume the lock holder is not functional 949 * and plow ahead. If the lock is freed within the time out 950 * period we re-get the lock and go ahead normally. We also 951 * remember if we have plowed ahead so that we don't have 952 * to wait out the time out period again - the asumption 953 * is that we will time out again. 954 */ 955 956 for (counter = 0; counter < 150; mdelay(125), counter++) { 957 if (!spin_is_locked(&port->sc_port.lock) 958 || stole_lock) { 959 if (!stole_lock) { 960 spin_lock_irqsave(&port->sc_port.lock, 961 flags); 962 got_lock = 1; 963 } 964 break; 965 } else { 966 /* still locked */ 967 if ((lhead != port->sc_port.state->xmit.head) 968 || (ltail != 969 port->sc_port.state->xmit.tail)) { 970 lhead = 971 port->sc_port.state->xmit.head; 972 ltail = 973 port->sc_port.state->xmit.tail; 974 counter = 0; 975 } 976 } 977 } 978 /* flush anything in the serial core xmit buffer, raw */ 979 sn_transmit_chars(port, 1); 980 if (got_lock) { 981 spin_unlock_irqrestore(&port->sc_port.lock, flags); 982 stole_lock = 0; 983 } else { 984 /* fell thru */ 985 stole_lock = 1; 986 } 987 puts_raw_fixed(port->sc_ops->sal_puts_raw, s, count); 988 } else { 989 stole_lock = 0; 990 spin_lock_irqsave(&port->sc_port.lock, flags); 991 sn_transmit_chars(port, 1); 992 spin_unlock_irqrestore(&port->sc_port.lock, flags); 993 994 puts_raw_fixed(port->sc_ops->sal_puts_raw, s, count); 995 } 996} 997 998 999/** 1000 * sn_sal_console_setup - Set up console for early printing 1001 * @co: Console to work with 1002 * @options: Options to set 1003 * 1004 * Altix console doesn't do anything with baud rates, etc, anyway. 1005 * 1006 * This isn't required since not providing the setup function in the 1007 * console struct is ok. However, other patches like KDB plop something 1008 * here so providing it is easier. 1009 * 1010 */ 1011static int sn_sal_console_setup(struct console *co, char *options) 1012{ 1013 return 0; 1014} 1015 1016/** 1017 * sn_sal_console_write_early - simple early output routine 1018 * @co - console struct 1019 * @s - string to print 1020 * @count - count 1021 * 1022 * Simple function to provide early output, before even 1023 * sn_sal_serial_console_init is called. Referenced in the 1024 * console struct registerd in sn_serial_console_early_setup. 1025 * 1026 */ 1027static void __init 1028sn_sal_console_write_early(struct console *co, const char *s, unsigned count) 1029{ 1030 puts_raw_fixed(sal_console_port.sc_ops->sal_puts_raw, s, count); 1031} 1032 1033/* Used for very early console printing - again, before 1034 * sn_sal_serial_console_init is run */ 1035static struct console sal_console_early __initdata = { 1036 .name = "sn_sal", 1037 .write = sn_sal_console_write_early, 1038 .flags = CON_PRINTBUFFER, 1039 .index = -1, 1040}; 1041 1042/** 1043 * sn_serial_console_early_setup - Sets up early console output support 1044 * 1045 * Register a console early on... This is for output before even 1046 * sn_sal_serial_cosnole_init is called. This function is called from 1047 * setup.c. This allows us to do really early polled writes. When 1048 * sn_sal_serial_console_init is called, this console is unregistered 1049 * and a new one registered. 1050 */ 1051int __init sn_serial_console_early_setup(void) 1052{ 1053 if (!ia64_platform_is("sn2")) 1054 return -1; 1055 1056 sal_console_port.sc_ops = &poll_ops; 1057 spin_lock_init(&sal_console_port.sc_port.lock); 1058 early_sn_setup(); /* Find SAL entry points */ 1059 register_console(&sal_console_early); 1060 1061 return 0; 1062} 1063 1064/** 1065 * sn_sal_serial_console_init - Early console output - set up for register 1066 * 1067 * This function is called when regular console init happens. Because we 1068 * support even earlier console output with sn_serial_console_early_setup 1069 * (called from setup.c directly), this function unregisters the really 1070 * early console. 1071 * 1072 * Note: Even if setup.c doesn't register sal_console_early, unregistering 1073 * it here doesn't hurt anything. 1074 * 1075 */ 1076static int __init sn_sal_serial_console_init(void) 1077{ 1078 if (ia64_platform_is("sn2")) { 1079 sn_sal_switch_to_asynch(&sal_console_port); 1080 DPRINTF("sn_sal_serial_console_init : register console\n"); 1081 register_console(&sal_console); 1082 unregister_console(&sal_console_early); 1083 } 1084 return 0; 1085} 1086 1087console_initcall(sn_sal_serial_console_init);