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author | Linus Torvalds <torvalds@ppc970.osdl.org> | 2005-04-16 15:20:36 -0700 |
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committer | Linus Torvalds <torvalds@ppc970.osdl.org> | 2005-04-16 15:20:36 -0700 |
commit | 1da177e4c3f41524e886b7f1b8a0c1fc7321cac2 (patch) | |
tree | 0bba044c4ce775e45a88a51686b5d9f90697ea9d /drivers/cdrom/cm206.c | |
download | linux-1da177e4c3f41524e886b7f1b8a0c1fc7321cac2.tar.gz linux-1da177e4c3f41524e886b7f1b8a0c1fc7321cac2.tar.bz2 linux-1da177e4c3f41524e886b7f1b8a0c1fc7321cac2.zip |
Linux-2.6.12-rc2v2.6.12-rc2
Initial git repository build. I'm not bothering with the full history,
even though we have it. We can create a separate "historical" git
archive of that later if we want to, and in the meantime it's about
3.2GB when imported into git - space that would just make the early
git days unnecessarily complicated, when we don't have a lot of good
infrastructure for it.
Let it rip!
Diffstat (limited to 'drivers/cdrom/cm206.c')
-rw-r--r-- | drivers/cdrom/cm206.c | 1626 |
1 files changed, 1626 insertions, 0 deletions
diff --git a/drivers/cdrom/cm206.c b/drivers/cdrom/cm206.c new file mode 100644 index 000000000000..da80b14335a5 --- /dev/null +++ b/drivers/cdrom/cm206.c @@ -0,0 +1,1626 @@ +/* cm206.c. A linux-driver for the cm206 cdrom player with cm260 adapter card. + Copyright (c) 1995--1997 David A. van Leeuwen. + $Id: cm206.c,v 1.5 1997/12/26 11:02:51 david Exp $ + + 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., 675 Mass Ave, Cambridge, MA 02139, USA. + +History: + Started 25 jan 1994. Waiting for documentation... + 22 feb 1995: 0.1a first reasonably safe polling driver. + Two major bugs, one in read_sector and one in + do_cm206_request, happened to cancel! + 25 feb 1995: 0.2a first reasonable interrupt driven version of above. + uart writes are still done in polling mode. + 25 feb 1995: 0.21a writes also in interrupt mode, still some + small bugs to be found... Larger buffer. + 2 mrt 1995: 0.22 Bug found (cd-> nowhere, interrupt was called in + initialization), read_ahead of 16. Timeouts implemented. + unclear if they do something... + 7 mrt 1995: 0.23 Start of background read-ahead. + 18 mrt 1995: 0.24 Working background read-ahead. (still problems) + 26 mrt 1995: 0.25 Multi-session ioctl added (kernel v1.2). + Statistics implemented, though separate stats206.h. + Accessible trough ioctl 0x1000 (just a number). + Hard to choose between v1.2 development and 1.1.75. + Bottom-half doesn't work with 1.2... + 0.25a: fixed... typo. Still problems... + 1 apr 1995: 0.26 Module support added. Most bugs found. Use kernel 1.2.n. + 5 apr 1995: 0.27 Auto-probe for the adapter card base address. + Auto-probe for the adaptor card irq line. + 7 apr 1995: 0.28 Added lilo setup support for base address and irq. + Use major number 32 (not in this source), officially + assigned to this driver. + 9 apr 1995: 0.29 Added very limited audio support. Toc_header, stop, pause, + resume, eject. Play_track ignores track info, because we can't + read a table-of-contents entry. Toc_entry is implemented + as a `placebo' function: always returns start of disc. + 3 may 1995: 0.30 Audio support completed. The get_toc_entry function + is implemented as a binary search. + 15 may 1995: 0.31 More work on audio stuff. Workman is not easy to + satisfy; changed binary search into linear search. + Auto-probe for base address somewhat relaxed. + 1 jun 1995: 0.32 Removed probe_irq_on/off for module version. + 10 jun 1995: 0.33 Workman still behaves funny, but you should be + able to eject and substitute another disc. + + An adaptation of 0.33 is included in linux-1.3.7 by Eberhard Moenkeberg + + 18 jul 1995: 0.34 Patch by Heiko Eissfeldt included, mainly considering + verify_area's in the ioctls. Some bugs introduced by + EM considering the base port and irq fixed. + + 18 dec 1995: 0.35 Add some code for error checking... no luck... + + We jump to reach our goal: version 1.0 in the next stable linux kernel. + + 19 mar 1996: 0.95 Different implementation of CDROM_GET_UPC, on + request of Thomas Quinot. + 25 mar 1996: 0.96 Interpretation of opening with O_WRONLY or O_RDWR: + open only for ioctl operation, e.g., for operation of + tray etc. + 4 apr 1996: 0.97 First implementation of layer between VFS and cdrom + driver, a generic interface. Much of the functionality + of cm206_open() and cm206_ioctl() is transferred to a + new file cdrom.c and its header ucdrom.h. + + Upgrade to Linux kernel 1.3.78. + + 11 apr 1996 0.98 Upgrade to Linux kernel 1.3.85 + More code moved to cdrom.c + + 0.99 Some more small changes to decrease number + of oopses at module load; + + 27 jul 1996 0.100 Many hours of debugging, kernel change from 1.2.13 + to 2.0.7 seems to have introduced some weird behavior + in (interruptible_)sleep_on(&cd->data): the process + seems to be woken without any explicit wake_up in my own + code. Patch to try 100x in case such untriggered wake_up's + occur. + + 28 jul 1996 0.101 Rewriting of the code that receives the command echo, + using a fifo to store echoed bytes. + + Branch from 0.99: + + 0.99.1.0 Update to kernel release 2.0.10 dev_t -> kdev_t + (emoenke) various typos found by others. extra + module-load oops protection. + + 0.99.1.1 Initialization constant cdrom_dops.speed + changed from float (2.0) to int (2); Cli()-sti() pair + around cm260_reset() in module initialization code. + + 0.99.1.2 Changes literally as proposed by Scott Snyder + <snyder@d0sgif.fnal.gov> for the 2.1 kernel line, which + have to do mainly with the poor minor support i had. The + major new concept is to change a cdrom driver's + operations struct from the capabilities struct. This + reflects the fact that there is one major for a driver, + whilst there can be many minors whith completely + different capabilities. + + 0.99.1.3 More changes for operations/info separation. + + 0.99.1.4 Added speed selection (someone had to do this + first). + + 23 jan 1997 0.99.1.5 MODULE_PARMS call added. + + 23 jan 1997 0.100.1.2--0.100.1.5 following similar lines as + 0.99.1.1--0.99.1.5. I get too many complaints about the + drive making read errors. What't wrong with the 2.0+ + kernel line? Why get i (and othe cm206 owners) weird + results? Why were things good in the good old 1.1--1.2 + era? Why don't i throw away the drive? + + 2 feb 1997 0.102 Added `volatile' to values in cm206_struct. Seems to + reduce many of the problems. Rewrote polling routines + to use fixed delays between polls. + 0.103 Changed printk behavior. + 0.104 Added a 0.100 -> 0.100.1.1 change + +11 feb 1997 0.105 Allow auto_probe during module load, disable + with module option "auto_probe=0". Moved some debugging + statements to lower priority. Implemented select_speed() + function. + +13 feb 1997 1.0 Final version for 2.0 kernel line. + + All following changes will be for the 2.1 kernel line. + +15 feb 1997 1.1 Keep up with kernel 2.1.26, merge in changes from + cdrom.c 0.100.1.1--1.0. Add some more MODULE_PARMS. + +14 sep 1997 1.2 Upgrade to Linux 2.1.55. Added blksize_size[], patch + sent by James Bottomley <James.Bottomley@columbiasc.ncr.com>. + +21 dec 1997 1.4 Upgrade to Linux 2.1.72. + +24 jan 1998 Removed the cm206_disc_status() function, as it was now dead + code. The Uniform CDROM driver now provides this functionality. + +9 Nov. 1999 Make kernel-parameter implementation work with 2.3.x + Removed init_module & cleanup_module in favor of + module_init & module_exit. + Torben Mathiasen <tmm@image.dk> + * + * Parts of the code are based upon lmscd.c written by Kai Petzke, + * sbpcd.c written by Eberhard Moenkeberg, and mcd.c by Martin + * Harriss, but any off-the-shelf dynamic programming algorithm won't + * be able to find them. + * + * The cm206 drive interface and the cm260 adapter card seem to be + * sufficiently different from their cm205/cm250 counterparts + * in order to write a complete new driver. + * + * I call all routines connected to the Linux kernel something + * with `cm206' in it, as this stuff is too series-dependent. + * + * Currently, my limited knowledge is based on: + * - The Linux Kernel Hacker's guide, v. 0.5, by Michael K. Johnson + * - Linux Kernel Programmierung, by Michael Beck and others + * - Philips/LMS cm206 and cm226 product specification + * - Philips/LMS cm260 product specification + * + * David van Leeuwen, david@tm.tno.nl. */ +#define REVISION "$Revision: 1.5 $" + +#include <linux/module.h> + +#include <linux/errno.h> /* These include what we really need */ +#include <linux/delay.h> +#include <linux/string.h> +#include <linux/sched.h> +#include <linux/interrupt.h> +#include <linux/timer.h> +#include <linux/cdrom.h> +#include <linux/devfs_fs_kernel.h> +#include <linux/ioport.h> +#include <linux/mm.h> +#include <linux/slab.h> +#include <linux/init.h> + +/* #include <linux/ucdrom.h> */ + +#include <asm/io.h> + +#define MAJOR_NR CM206_CDROM_MAJOR + +#include <linux/blkdev.h> + +#undef DEBUG +#define STATISTICS /* record times and frequencies of events */ +#define AUTO_PROBE_MODULE +#define USE_INSW + +#include "cm206.h" + +/* This variable defines whether or not to probe for adapter base port + address and interrupt request. It can be overridden by the boot + parameter `auto'. +*/ +static int auto_probe = 1; /* Yes, why not? */ + +static int cm206_base = CM206_BASE; +static int cm206_irq = CM206_IRQ; +#ifdef MODULE +static int cm206[2] = { 0, 0 }; /* for compatible `insmod' parameter passing */ +#endif + +MODULE_PARM(cm206_base, "i"); /* base */ +MODULE_PARM(cm206_irq, "i"); /* irq */ +MODULE_PARM(cm206, "1-2i"); /* base,irq or irq,base */ +MODULE_PARM(auto_probe, "i"); /* auto probe base and irq */ +MODULE_LICENSE("GPL"); + +#define POLLOOP 100 /* milliseconds */ +#define READ_AHEAD 1 /* defines private buffer, waste! */ +#define BACK_AHEAD 1 /* defines adapter-read ahead */ +#define DATA_TIMEOUT (3*HZ) /* measured in jiffies (10 ms) */ +#define UART_TIMEOUT (5*HZ/100) +#define DSB_TIMEOUT (7*HZ) /* time for the slowest command to finish */ +#define UR_SIZE 4 /* uart receive buffer fifo size */ + +#define LINUX_BLOCK_SIZE 512 /* WHERE is this defined? */ +#define RAW_SECTOR_SIZE 2352 /* ok, is also defined in cdrom.h */ +#define ISO_SECTOR_SIZE 2048 +#define BLOCKS_ISO (ISO_SECTOR_SIZE/LINUX_BLOCK_SIZE) /* 4 */ +#define CD_SYNC_HEAD 16 /* CD_SYNC + CD_HEAD */ + +#ifdef STATISTICS /* keep track of errors in counters */ +#define stats(i) { ++cd->stats[st_ ## i]; \ + cd->last_stat[st_ ## i] = cd->stat_counter++; \ + } +#else +#define stats(i) (void) 0; +#endif + +#define Debug(a) {printk (KERN_DEBUG); printk a;} +#ifdef DEBUG +#define debug(a) Debug(a) +#else +#define debug(a) (void) 0; +#endif + +typedef unsigned char uch; /* 8-bits */ +typedef unsigned short ush; /* 16-bits */ + +struct toc_struct { /* private copy of Table of Contents */ + uch track, fsm[3], q0; +}; + +struct cm206_struct { + volatile ush intr_ds; /* data status read on last interrupt */ + volatile ush intr_ls; /* uart line status read on last interrupt */ + volatile uch ur[UR_SIZE]; /* uart receive buffer fifo */ + volatile uch ur_w, ur_r; /* write/read buffer index */ + volatile uch dsb, cc; /* drive status byte and condition (error) code */ + int command; /* command to be written to the uart */ + int openfiles; + ush sector[READ_AHEAD * RAW_SECTOR_SIZE / 2]; /* buffered cd-sector */ + int sector_first, sector_last; /* range of these sectors */ + wait_queue_head_t uart; /* wait queues for interrupt */ + wait_queue_head_t data; + struct timer_list timer; /* time-out */ + char timed_out; + signed char max_sectors; /* number of sectors that fit in adapter mem */ + char wait_back; /* we're waiting for a background-read */ + char background; /* is a read going on in the background? */ + int adapter_first; /* if so, that's the starting sector */ + int adapter_last; + char fifo_overflowed; + uch disc_status[7]; /* result of get_disc_status command */ +#ifdef STATISTICS + int stats[NR_STATS]; + int last_stat[NR_STATS]; /* `time' at which stat was stat */ + int stat_counter; +#endif + struct toc_struct toc[101]; /* The whole table of contents + lead-out */ + uch q[10]; /* Last read q-channel info */ + uch audio_status[5]; /* last read position on pause */ + uch media_changed; /* record if media changed */ +}; + +#define DISC_STATUS cd->disc_status[0] +#define FIRST_TRACK cd->disc_status[1] +#define LAST_TRACK cd->disc_status[2] +#define PAUSED cd->audio_status[0] /* misuse this memory byte! */ +#define PLAY_TO cd->toc[0] /* toc[0] records end-time in play */ + +static struct cm206_struct *cd; /* the main memory structure */ +static struct request_queue *cm206_queue; +static DEFINE_SPINLOCK(cm206_lock); + +/* First, we define some polling functions. These are actually + only being used in the initialization. */ + +void send_command_polled(int command) +{ + int loop = POLLOOP; + while (!(inw(r_line_status) & ls_transmitter_buffer_empty) + && loop > 0) { + mdelay(1); /* one millisec delay */ + --loop; + } + outw(command, r_uart_transmit); +} + +uch receive_echo_polled(void) +{ + int loop = POLLOOP; + while (!(inw(r_line_status) & ls_receive_buffer_full) && loop > 0) { + mdelay(1); + --loop; + } + return ((uch) inw(r_uart_receive)); +} + +uch send_receive_polled(int command) +{ + send_command_polled(command); + return receive_echo_polled(); +} + +inline void clear_ur(void) +{ + if (cd->ur_r != cd->ur_w) { + debug(("Deleting bytes from fifo:")); + for (; cd->ur_r != cd->ur_w; + cd->ur_r++, cd->ur_r %= UR_SIZE) + debug((" 0x%x", cd->ur[cd->ur_r])); + debug(("\n")); + } +} + +static struct tasklet_struct cm206_tasklet; + +/* The interrupt handler. When the cm260 generates an interrupt, very + much care has to be taken in reading out the registers in the right + order; in case of a receive_buffer_full interrupt, first the + uart_receive must be read, and then the line status again to + de-assert the interrupt line. It took me a couple of hours to find + this out:-( + + The function reset_cm206 appears to cause an interrupt, because + pulling up the INIT line clears both the uart-write-buffer /and/ + the uart-write-buffer-empty mask. We call this a `lost interrupt,' + as there seems so reason for this to happen. +*/ + +static irqreturn_t cm206_interrupt(int sig, void *dev_id, struct pt_regs *regs) +{ + volatile ush fool; + cd->intr_ds = inw(r_data_status); /* resets data_ready, data_error, + crc_error, sync_error, toc_ready + interrupts */ + cd->intr_ls = inw(r_line_status); /* resets overrun bit */ + debug(("Intr, 0x%x 0x%x, %d\n", cd->intr_ds, cd->intr_ls, + cd->background)); + if (cd->intr_ls & ls_attention) + stats(attention); + /* receive buffer full? */ + if (cd->intr_ls & ls_receive_buffer_full) { + cd->ur[cd->ur_w] = inb(r_uart_receive); /* get order right! */ + cd->intr_ls = inw(r_line_status); /* resets rbf interrupt */ + debug(("receiving #%d: 0x%x\n", cd->ur_w, + cd->ur[cd->ur_w])); + cd->ur_w++; + cd->ur_w %= UR_SIZE; + if (cd->ur_w == cd->ur_r) + debug(("cd->ur overflow!\n")); + if (waitqueue_active(&cd->uart) && cd->background < 2) { + del_timer(&cd->timer); + wake_up_interruptible(&cd->uart); + } + } + /* data ready in fifo? */ + else if (cd->intr_ds & ds_data_ready) { + if (cd->background) + ++cd->adapter_last; + if (waitqueue_active(&cd->data) + && (cd->wait_back || !cd->background)) { + del_timer(&cd->timer); + wake_up_interruptible(&cd->data); + } + stats(data_ready); + } + /* ready to issue a write command? */ + else if (cd->command && cd->intr_ls & ls_transmitter_buffer_empty) { + outw(dc_normal | (inw(r_data_status) & 0x7f), + r_data_control); + outw(cd->command, r_uart_transmit); + cd->command = 0; + if (!cd->background) + wake_up_interruptible(&cd->uart); + } + /* now treat errors (at least, identify them for debugging) */ + else if (cd->intr_ds & ds_fifo_overflow) { + debug(("Fifo overflow at sectors 0x%x\n", + cd->sector_first)); + fool = inw(r_fifo_output_buffer); /* de-assert the interrupt */ + cd->fifo_overflowed = 1; /* signal one word less should be read */ + stats(fifo_overflow); + } else if (cd->intr_ds & ds_data_error) { + debug(("Data error at sector 0x%x\n", cd->sector_first)); + stats(data_error); + } else if (cd->intr_ds & ds_crc_error) { + debug(("CRC error at sector 0x%x\n", cd->sector_first)); + stats(crc_error); + } else if (cd->intr_ds & ds_sync_error) { + debug(("Sync at sector 0x%x\n", cd->sector_first)); + stats(sync_error); + } else if (cd->intr_ds & ds_toc_ready) { + /* do something appropriate */ + } + /* couldn't see why this interrupt, maybe due to init */ + else { + outw(dc_normal | READ_AHEAD, r_data_control); + stats(lost_intr); + } + if (cd->background + && (cd->adapter_last - cd->adapter_first == cd->max_sectors + || cd->fifo_overflowed)) + tasklet_schedule(&cm206_tasklet); /* issue a stop read command */ + stats(interrupt); + return IRQ_HANDLED; +} + +/* we have put the address of the wait queue in who */ +void cm206_timeout(unsigned long who) +{ + cd->timed_out = 1; + debug(("Timing out\n")); + wake_up_interruptible((wait_queue_head_t *) who); +} + +/* This function returns 1 if a timeout occurred, 0 if an interrupt + happened */ +int sleep_or_timeout(wait_queue_head_t * wait, int timeout) +{ + cd->timed_out = 0; + init_timer(&cd->timer); + cd->timer.data = (unsigned long) wait; + cd->timer.expires = jiffies + timeout; + add_timer(&cd->timer); + debug(("going to sleep\n")); + interruptible_sleep_on(wait); + del_timer(&cd->timer); + if (cd->timed_out) { + cd->timed_out = 0; + return 1; + } else + return 0; +} + +void cm206_delay(int nr_jiffies) +{ + DECLARE_WAIT_QUEUE_HEAD(wait); + sleep_or_timeout(&wait, nr_jiffies); +} + +void send_command(int command) +{ + debug(("Sending 0x%x\n", command)); + if (!(inw(r_line_status) & ls_transmitter_buffer_empty)) { + cd->command = command; + cli(); /* don't interrupt before sleep */ + outw(dc_mask_sync_error | dc_no_stop_on_error | + (inw(r_data_status) & 0x7f), r_data_control); + /* interrupt routine sends command */ + if (sleep_or_timeout(&cd->uart, UART_TIMEOUT)) { + debug(("Time out on write-buffer\n")); + stats(write_timeout); + outw(command, r_uart_transmit); + } + debug(("Write commmand delayed\n")); + } else + outw(command, r_uart_transmit); +} + +uch receive_byte(int timeout) +{ + uch ret; + cli(); + debug(("cli\n")); + ret = cd->ur[cd->ur_r]; + if (cd->ur_r != cd->ur_w) { + sti(); + debug(("returning #%d: 0x%x\n", cd->ur_r, + cd->ur[cd->ur_r])); + cd->ur_r++; + cd->ur_r %= UR_SIZE; + return ret; + } else if (sleep_or_timeout(&cd->uart, timeout)) { /* does sti() */ + debug(("Time out on receive-buffer\n")); +#ifdef STATISTICS + if (timeout == UART_TIMEOUT) + stats(receive_timeout) /* no `;'! */ + else + stats(dsb_timeout); +#endif + return 0xda; + } + ret = cd->ur[cd->ur_r]; + debug(("slept; returning #%d: 0x%x\n", cd->ur_r, + cd->ur[cd->ur_r])); + cd->ur_r++; + cd->ur_r %= UR_SIZE; + return ret; +} + +inline uch receive_echo(void) +{ + return receive_byte(UART_TIMEOUT); +} + +inline uch send_receive(int command) +{ + send_command(command); + return receive_echo(); +} + +inline uch wait_dsb(void) +{ + return receive_byte(DSB_TIMEOUT); +} + +int type_0_command(int command, int expect_dsb) +{ + int e; + clear_ur(); + if (command != (e = send_receive(command))) { + debug(("command 0x%x echoed as 0x%x\n", command, e)); + stats(echo); + return -1; + } + if (expect_dsb) { + cd->dsb = wait_dsb(); /* wait for command to finish */ + } + return 0; +} + +int type_1_command(int command, int bytes, uch * status) +{ /* returns info */ + int i; + if (type_0_command(command, 0)) + return -1; + for (i = 0; i < bytes; i++) + status[i] = send_receive(c_gimme); + return 0; +} + +/* This function resets the adapter card. We'd better not do this too + * often, because it tends to generate `lost interrupts.' */ +void reset_cm260(void) +{ + outw(dc_normal | dc_initialize | READ_AHEAD, r_data_control); + udelay(10); /* 3.3 mu sec minimum */ + outw(dc_normal | READ_AHEAD, r_data_control); +} + +/* fsm: frame-sec-min from linear address; one of many */ +void fsm(int lba, uch * fsm) +{ + fsm[0] = lba % 75; + lba /= 75; + lba += 2; + fsm[1] = lba % 60; + fsm[2] = lba / 60; +} + +inline int fsm2lba(uch * fsm) +{ + return fsm[0] + 75 * (fsm[1] - 2 + 60 * fsm[2]); +} + +inline int f_s_m2lba(uch f, uch s, uch m) +{ + return f + 75 * (s - 2 + 60 * m); +} + +int start_read(int start) +{ + uch read_sector[4] = { c_read_data, }; + int i, e; + + fsm(start, &read_sector[1]); + clear_ur(); + for (i = 0; i < 4; i++) + if (read_sector[i] != (e = send_receive(read_sector[i]))) { + debug(("read_sector: %x echoes %x\n", + read_sector[i], e)); + stats(echo); + if (e == 0xff) { /* this seems to happen often */ + e = receive_echo(); + debug(("Second try %x\n", e)); + if (e != read_sector[i]) + return -1; + } + } + return 0; +} + +int stop_read(void) +{ + int e; + type_0_command(c_stop, 0); + if ((e = receive_echo()) != 0xff) { + debug(("c_stop didn't send 0xff, but 0x%x\n", e)); + stats(stop_0xff); + return -1; + } + return 0; +} + +/* This function starts to read sectors in adapter memory, the + interrupt routine should stop the read. In fact, the bottom_half + routine takes care of this. Set a flag `background' in the cd + struct to indicate the process. */ + +int read_background(int start, int reading) +{ + if (cd->background) + return -1; /* can't do twice */ + outw(dc_normal | BACK_AHEAD, r_data_control); + if (!reading && start_read(start)) + return -2; + cd->adapter_first = cd->adapter_last = start; + cd->background = 1; /* flag a read is going on */ + return 0; +} + +#ifdef USE_INSW +#define transport_data insw +#else +/* this routine implements insw(,,). There was a time i had the + impression that there would be any difference in error-behaviour. */ +void transport_data(int port, ush * dest, int count) +{ + int i; + ush *d; + for (i = 0, d = dest; i < count; i++, d++) + *d = inw(port); +} +#endif + + +#define MAX_TRIES 100 +int read_sector(int start) +{ + int tries = 0; + if (cd->background) { + cd->background = 0; + cd->adapter_last = -1; /* invalidate adapter memory */ + stop_read(); + } + cd->fifo_overflowed = 0; + reset_cm260(); /* empty fifo etc. */ + if (start_read(start)) + return -1; + do { + if (sleep_or_timeout(&cd->data, DATA_TIMEOUT)) { + debug(("Read timed out sector 0x%x\n", start)); + stats(read_timeout); + stop_read(); + return -3; + } + tries++; + } while (cd->intr_ds & ds_fifo_empty && tries < MAX_TRIES); + if (tries > 1) + debug(("Took me some tries\n")) + else + if (tries == MAX_TRIES) + debug(("MAX_TRIES tries for read sector\n")); + transport_data(r_fifo_output_buffer, cd->sector, + READ_AHEAD * RAW_SECTOR_SIZE / 2); + if (read_background(start + READ_AHEAD, 1)) + stats(read_background); + cd->sector_first = start; + cd->sector_last = start + READ_AHEAD; + stats(read_restarted); + return 0; +} + +/* The function of bottom-half is to send a stop command to the drive + This isn't easy because the routine is not `owned' by any process; + we can't go to sleep! The variable cd->background gives the status: + 0 no read pending + 1 a read is pending + 2 c_stop waits for write_buffer_empty + 3 c_stop waits for receive_buffer_full: echo + 4 c_stop waits for receive_buffer_full: 0xff +*/ + +static void cm206_tasklet_func(unsigned long ignore) +{ + debug(("bh: %d\n", cd->background)); + switch (cd->background) { + case 1: + stats(bh); + if (!(cd->intr_ls & ls_transmitter_buffer_empty)) { + cd->command = c_stop; + outw(dc_mask_sync_error | dc_no_stop_on_error | + (inw(r_data_status) & 0x7f), r_data_control); + cd->background = 2; + break; /* we'd better not time-out here! */ + } else + outw(c_stop, r_uart_transmit); + /* fall into case 2: */ + case 2: + /* the write has been satisfied by interrupt routine */ + cd->background = 3; + break; + case 3: + if (cd->ur_r != cd->ur_w) { + if (cd->ur[cd->ur_r] != c_stop) { + debug(("cm206_bh: c_stop echoed 0x%x\n", + cd->ur[cd->ur_r])); + stats(echo); + } + cd->ur_r++; + cd->ur_r %= UR_SIZE; + } + cd->background++; + break; + case 4: + if (cd->ur_r != cd->ur_w) { + if (cd->ur[cd->ur_r] != 0xff) { + debug(("cm206_bh: c_stop reacted with 0x%x\n", cd->ur[cd->ur_r])); + stats(stop_0xff); + } + cd->ur_r++; + cd->ur_r %= UR_SIZE; + } + cd->background = 0; + } +} + +static DECLARE_TASKLET(cm206_tasklet, cm206_tasklet_func, 0); + +/* This command clears the dsb_possible_media_change flag, so we must + * retain it. + */ +void get_drive_status(void) +{ + uch status[2]; + type_1_command(c_drive_status, 2, status); /* this might be done faster */ + cd->dsb = status[0]; + cd->cc = status[1]; + cd->media_changed |= + !!(cd->dsb & (dsb_possible_media_change | + dsb_drive_not_ready | dsb_tray_not_closed)); +} + +void get_disc_status(void) +{ + if (type_1_command(c_disc_status, 7, cd->disc_status)) { + debug(("get_disc_status: error\n")); + } +} + +/* The new open. The real opening strategy is defined in cdrom.c. */ + +static int cm206_open(struct cdrom_device_info *cdi, int purpose) +{ + if (!cd->openfiles) { /* reset only first time */ + cd->background = 0; + reset_cm260(); + cd->adapter_last = -1; /* invalidate adapter memory */ + cd->sector_last = -1; + } + ++cd->openfiles; + stats(open); + return 0; +} + +static void cm206_release(struct cdrom_device_info *cdi) +{ + if (cd->openfiles == 1) { + if (cd->background) { + cd->background = 0; + stop_read(); + } + cd->sector_last = -1; /* Make our internal buffer invalid */ + FIRST_TRACK = 0; /* No valid disc status */ + } + --cd->openfiles; +} + +/* Empty buffer empties $sectors$ sectors of the adapter card buffer, + * and then reads a sector in kernel memory. */ +void empty_buffer(int sectors) +{ + while (sectors >= 0) { + transport_data(r_fifo_output_buffer, + cd->sector + cd->fifo_overflowed, + RAW_SECTOR_SIZE / 2 - cd->fifo_overflowed); + --sectors; + ++cd->adapter_first; /* update the current adapter sector */ + cd->fifo_overflowed = 0; /* reset overflow bit */ + stats(sector_transferred); + } + cd->sector_first = cd->adapter_first - 1; + cd->sector_last = cd->adapter_first; /* update the buffer sector */ +} + +/* try_adapter. This function determines if the requested sector is + in adapter memory, or will appear there soon. Returns 0 upon + success */ +int try_adapter(int sector) +{ + if (cd->adapter_first <= sector && sector < cd->adapter_last) { + /* sector is in adapter memory */ + empty_buffer(sector - cd->adapter_first); + return 0; + } else if (cd->background == 1 && cd->adapter_first <= sector + && sector < cd->adapter_first + cd->max_sectors) { + /* a read is going on, we can wait for it */ + cd->wait_back = 1; + while (sector >= cd->adapter_last) { + if (sleep_or_timeout(&cd->data, DATA_TIMEOUT)) { + debug(("Timed out during background wait: %d %d %d %d\n", sector, cd->adapter_last, cd->adapter_first, cd->background)); + stats(back_read_timeout); + cd->wait_back = 0; + return -1; + } + } + cd->wait_back = 0; + empty_buffer(sector - cd->adapter_first); + return 0; + } else + return -2; +} + +/* This is not a very smart implementation. We could optimize for + consecutive block numbers. I'm not convinced this would really + bring down the processor load. */ +static void do_cm206_request(request_queue_t * q) +{ + long int i, cd_sec_no; + int quarter, error; + uch *source, *dest; + struct request *req; + + while (1) { /* repeat until all requests have been satisfied */ + req = elv_next_request(q); + if (!req) + return; + + if (req->cmd != READ) { + debug(("Non-read command %d on cdrom\n", req->cmd)); + end_request(req, 0); + continue; + } + spin_unlock_irq(q->queue_lock); + error = 0; + for (i = 0; i < req->nr_sectors; i++) { + int e1, e2; + cd_sec_no = (req->sector + i) / BLOCKS_ISO; /* 4 times 512 bytes */ + quarter = (req->sector + i) % BLOCKS_ISO; + dest = req->buffer + i * LINUX_BLOCK_SIZE; + /* is already in buffer memory? */ + if (cd->sector_first <= cd_sec_no + && cd_sec_no < cd->sector_last) { + source = + ((uch *) cd->sector) + 16 + + quarter * LINUX_BLOCK_SIZE + + (cd_sec_no - + cd->sector_first) * RAW_SECTOR_SIZE; + memcpy(dest, source, LINUX_BLOCK_SIZE); + } else if (!(e1 = try_adapter(cd_sec_no)) || + !(e2 = read_sector(cd_sec_no))) { + source = + ((uch *) cd->sector) + 16 + + quarter * LINUX_BLOCK_SIZE; + memcpy(dest, source, LINUX_BLOCK_SIZE); + } else { + error = 1; + debug(("cm206_request: %d %d\n", e1, e2)); + } + } + spin_lock_irq(q->queue_lock); + end_request(req, !error); + } +} + +/* Audio support. I've tried very hard, but the cm206 drive doesn't + seem to have a get_toc (table-of-contents) function, while i'm + pretty sure it must read the toc upon disc insertion. Therefore + this function has been implemented through a binary search + strategy. All track starts that happen to be found are stored in + cd->toc[], for future use. + + I've spent a whole day on a bug that only shows under Workman--- + I don't get it. Tried everything, nothing works. If workman asks + for track# 0xaa, it'll get the wrong time back. Any other program + receives the correct value. I'm stymied. +*/ + +/* seek seeks to address lba. It does wait to arrive there. */ +void seek(int lba) +{ + int i; + uch seek_command[4] = { c_seek, }; + + fsm(lba, &seek_command[1]); + for (i = 0; i < 4; i++) + type_0_command(seek_command[i], 0); + cd->dsb = wait_dsb(); +} + +uch bcdbin(unsigned char bcd) +{ /* stolen from mcd.c! */ + return (bcd >> 4) * 10 + (bcd & 0xf); +} + +inline uch normalize_track(uch track) +{ + if (track < 1) + return 1; + if (track > LAST_TRACK) + return LAST_TRACK + 1; + return track; +} + +/* This function does a binary search for track start. It records all + * tracks seen in the process. Input $track$ must be between 1 and + * #-of-tracks+1. Note that the start of the disc must be in toc[1].fsm. + */ +int get_toc_lba(uch track) +{ + int max = 74 * 60 * 75 - 150, min = fsm2lba(cd->toc[1].fsm); + int i, lba, l, old_lba = 0; + uch *q = cd->q; + uch ct; /* current track */ + int binary = 0; + const int skip = 3 * 60 * 75; /* 3 minutes */ + + for (i = track; i > 0; i--) + if (cd->toc[i].track) { + min = fsm2lba(cd->toc[i].fsm); + break; + } + lba = min + skip; + do { + seek(lba); + type_1_command(c_read_current_q, 10, q); + ct = normalize_track(q[1]); + if (!cd->toc[ct].track) { + l = q[9] - bcdbin(q[5]) + 75 * (q[8] - + bcdbin(q[4]) - 2 + + 60 * (q[7] - + bcdbin(q + [3]))); + cd->toc[ct].track = q[1]; /* lead out still 0xaa */ + fsm(l, cd->toc[ct].fsm); + cd->toc[ct].q0 = q[0]; /* contains adr and ctrl info */ + if (ct == track) + return l; + } + old_lba = lba; + if (binary) { + if (ct < track) + min = lba; + else + max = lba; + lba = (min + max) / 2; + } else { + if (ct < track) + lba += skip; + else { + binary = 1; + max = lba; + min = lba - skip; + lba = (min + max) / 2; + } + } + } while (lba != old_lba); + return lba; +} + +void update_toc_entry(uch track) +{ + track = normalize_track(track); + if (!cd->toc[track].track) + get_toc_lba(track); +} + +/* return 0 upon success */ +int read_toc_header(struct cdrom_tochdr *hp) +{ + if (!FIRST_TRACK) + get_disc_status(); + if (hp) { + int i; + hp->cdth_trk0 = FIRST_TRACK; + hp->cdth_trk1 = LAST_TRACK; + /* fill in first track position */ + for (i = 0; i < 3; i++) + cd->toc[1].fsm[i] = cd->disc_status[3 + i]; + update_toc_entry(LAST_TRACK + 1); /* find most entries */ + return 0; + } + return -1; +} + +void play_from_to_msf(struct cdrom_msf *msfp) +{ + uch play_command[] = { c_play, + msfp->cdmsf_frame0, msfp->cdmsf_sec0, msfp->cdmsf_min0, + msfp->cdmsf_frame1, msfp->cdmsf_sec1, msfp->cdmsf_min1, 2, + 2 + }; + int i; + for (i = 0; i < 9; i++) + type_0_command(play_command[i], 0); + for (i = 0; i < 3; i++) + PLAY_TO.fsm[i] = play_command[i + 4]; + PLAY_TO.track = 0; /* say no track end */ + cd->dsb = wait_dsb(); +} + +void play_from_to_track(int from, int to) +{ + uch play_command[8] = { c_play, }; + int i; + + if (from == 0) { /* continue paused play */ + for (i = 0; i < 3; i++) { + play_command[i + 1] = cd->audio_status[i + 2]; + play_command[i + 4] = PLAY_TO.fsm[i]; + } + } else { + update_toc_entry(from); + update_toc_entry(to + 1); + for (i = 0; i < 3; i++) { + play_command[i + 1] = cd->toc[from].fsm[i]; + PLAY_TO.fsm[i] = play_command[i + 4] = + cd->toc[to + 1].fsm[i]; + } + PLAY_TO.track = to; + } + for (i = 0; i < 7; i++) + type_0_command(play_command[i], 0); + for (i = 0; i < 2; i++) + type_0_command(0x2, 0); /* volume */ + cd->dsb = wait_dsb(); +} + +int get_current_q(struct cdrom_subchnl *qp) +{ + int i; + uch *q = cd->q; + if (type_1_command(c_read_current_q, 10, q)) + return 0; +/* q[0] = bcdbin(q[0]); Don't think so! */ + for (i = 2; i < 6; i++) + q[i] = bcdbin(q[i]); + qp->cdsc_adr = q[0] & 0xf; + qp->cdsc_ctrl = q[0] >> 4; /* from mcd.c */ + qp->cdsc_trk = q[1]; + qp->cdsc_ind = q[2]; + if (qp->cdsc_format == CDROM_MSF) { + qp->cdsc_reladdr.msf.minute = q[3]; + qp->cdsc_reladdr.msf.second = q[4]; + qp->cdsc_reladdr.msf.frame = q[5]; + qp->cdsc_absaddr.msf.minute = q[7]; + qp->cdsc_absaddr.msf.second = q[8]; + qp->cdsc_absaddr.msf.frame = q[9]; + } else { + qp->cdsc_reladdr.lba = f_s_m2lba(q[5], q[4], q[3]); + qp->cdsc_absaddr.lba = f_s_m2lba(q[9], q[8], q[7]); + } + get_drive_status(); + if (cd->dsb & dsb_play_in_progress) + qp->cdsc_audiostatus = CDROM_AUDIO_PLAY; + else if (PAUSED) + qp->cdsc_audiostatus = CDROM_AUDIO_PAUSED; + else + qp->cdsc_audiostatus = CDROM_AUDIO_NO_STATUS; + return 0; +} + +void invalidate_toc(void) +{ + memset(cd->toc, 0, sizeof(cd->toc)); + memset(cd->disc_status, 0, sizeof(cd->disc_status)); +} + +/* cdrom.c guarantees that cdte_format == CDROM_MSF */ +void get_toc_entry(struct cdrom_tocentry *ep) +{ + uch track = normalize_track(ep->cdte_track); + update_toc_entry(track); + ep->cdte_addr.msf.frame = cd->toc[track].fsm[0]; + ep->cdte_addr.msf.second = cd->toc[track].fsm[1]; + ep->cdte_addr.msf.minute = cd->toc[track].fsm[2]; + ep->cdte_adr = cd->toc[track].q0 & 0xf; + ep->cdte_ctrl = cd->toc[track].q0 >> 4; + ep->cdte_datamode = 0; +} + +/* Audio ioctl. Ioctl commands connected to audio are in such an + * idiosyncratic i/o format, that we leave these untouched. Return 0 + * upon success. Memory checking has been done by cdrom_ioctl(), the + * calling function, as well as LBA/MSF sanitization. +*/ +int cm206_audio_ioctl(struct cdrom_device_info *cdi, unsigned int cmd, + void *arg) +{ + switch (cmd) { + case CDROMREADTOCHDR: + return read_toc_header((struct cdrom_tochdr *) arg); + case CDROMREADTOCENTRY: + get_toc_entry((struct cdrom_tocentry *) arg); + return 0; + case CDROMPLAYMSF: + play_from_to_msf((struct cdrom_msf *) arg); + return 0; + case CDROMPLAYTRKIND: /* admittedly, not particularly beautiful */ + play_from_to_track(((struct cdrom_ti *) arg)->cdti_trk0, + ((struct cdrom_ti *) arg)->cdti_trk1); + return 0; + case CDROMSTOP: + PAUSED = 0; + if (cd->dsb & dsb_play_in_progress) + return type_0_command(c_stop, 1); + else + return 0; + case CDROMPAUSE: + get_drive_status(); + if (cd->dsb & dsb_play_in_progress) { + type_0_command(c_stop, 1); + type_1_command(c_audio_status, 5, + cd->audio_status); + PAUSED = 1; /* say we're paused */ + } + return 0; + case CDROMRESUME: + if (PAUSED) + play_from_to_track(0, 0); + PAUSED = 0; + return 0; + case CDROMSTART: + case CDROMVOLCTRL: + return 0; + case CDROMSUBCHNL: + return get_current_q((struct cdrom_subchnl *) arg); + default: + return -EINVAL; + } +} + +/* Ioctl. These ioctls are specific to the cm206 driver. I have made + some driver statistics accessible through ioctl calls. + */ + +static int cm206_ioctl(struct cdrom_device_info *cdi, unsigned int cmd, + unsigned long arg) +{ + switch (cmd) { +#ifdef STATISTICS + case CM206CTL_GET_STAT: + if (arg >= NR_STATS) + return -EINVAL; + else + return cd->stats[arg]; + case CM206CTL_GET_LAST_STAT: + if (arg >= NR_STATS) + return -EINVAL; + else + return cd->last_stat[arg]; +#endif + default: + debug(("Unknown ioctl call 0x%x\n", cmd)); + return -EINVAL; + } +} + +int cm206_media_changed(struct cdrom_device_info *cdi, int disc_nr) +{ + if (cd != NULL) { + int r; + get_drive_status(); /* ensure cd->media_changed OK */ + r = cd->media_changed; + cd->media_changed = 0; /* clear bit */ + return r; + } else + return -EIO; +} + +/* The new generic cdrom support. Routines should be concise, most of + the logic should be in cdrom.c */ + +/* returns number of times device is in use */ +int cm206_open_files(struct cdrom_device_info *cdi) +{ + if (cd) + return cd->openfiles; + return -1; +} + +/* controls tray movement */ +int cm206_tray_move(struct cdrom_device_info *cdi, int position) +{ + if (position) { /* 1: eject */ + type_0_command(c_open_tray, 1); + invalidate_toc(); + } else + type_0_command(c_close_tray, 1); /* 0: close */ + return 0; +} + +/* gives current state of the drive */ +int cm206_drive_status(struct cdrom_device_info *cdi, int slot_nr) +{ + get_drive_status(); + if (cd->dsb & dsb_tray_not_closed) + return CDS_TRAY_OPEN; + if (!(cd->dsb & dsb_disc_present)) + return CDS_NO_DISC; + if (cd->dsb & dsb_drive_not_ready) + return CDS_DRIVE_NOT_READY; + return CDS_DISC_OK; +} + +/* locks or unlocks door lock==1: lock; return 0 upon success */ +int cm206_lock_door(struct cdrom_device_info *cdi, int lock) +{ + uch command = (lock) ? c_lock_tray : c_unlock_tray; + type_0_command(command, 1); /* wait and get dsb */ + /* the logic calculates the success, 0 means successful */ + return lock ^ ((cd->dsb & dsb_tray_locked) != 0); +} + +/* Although a session start should be in LBA format, we return it in + MSF format because it is slightly easier, and the new generic ioctl + will take care of the necessary conversion. */ +int cm206_get_last_session(struct cdrom_device_info *cdi, + struct cdrom_multisession *mssp) +{ + if (!FIRST_TRACK) + get_disc_status(); + if (mssp != NULL) { + if (DISC_STATUS & cds_multi_session) { /* multi-session */ + mssp->addr.msf.frame = cd->disc_status[3]; + mssp->addr.msf.second = cd->disc_status[4]; + mssp->addr.msf.minute = cd->disc_status[5]; + mssp->addr_format = CDROM_MSF; + mssp->xa_flag = 1; + } else { + mssp->xa_flag = 0; + } + return 1; + } + return 0; +} + +int cm206_get_upc(struct cdrom_device_info *cdi, struct cdrom_mcn *mcn) +{ + uch upc[10]; + char *ret = mcn->medium_catalog_number; + int i; + + if (type_1_command(c_read_upc, 10, upc)) + return -EIO; + for (i = 0; i < 13; i++) { + int w = i / 2 + 1, r = i % 2; + if (r) + ret[i] = 0x30 | (upc[w] & 0x0f); + else + ret[i] = 0x30 | ((upc[w] >> 4) & 0x0f); + } + ret[13] = '\0'; + return 0; +} + +int cm206_reset(struct cdrom_device_info *cdi) +{ + stop_read(); + reset_cm260(); + outw(dc_normal | dc_break | READ_AHEAD, r_data_control); + mdelay(1); /* 750 musec minimum */ + outw(dc_normal | READ_AHEAD, r_data_control); + cd->sector_last = -1; /* flag no data buffered */ + cd->adapter_last = -1; + invalidate_toc(); + return 0; +} + +int cm206_select_speed(struct cdrom_device_info *cdi, int speed) +{ + int r; + switch (speed) { + case 0: + r = type_0_command(c_auto_mode, 1); + break; + case 1: + r = type_0_command(c_force_1x, 1); + break; + case 2: + r = type_0_command(c_force_2x, 1); + break; + default: + return -1; + } + if (r < 0) + return r; + else + return 1; +} + +static struct cdrom_device_ops cm206_dops = { + .open = cm206_open, + .release = cm206_release, + .drive_status = cm206_drive_status, + .media_changed = cm206_media_changed, + .tray_move = cm206_tray_move, + .lock_door = cm206_lock_door, + .select_speed = cm206_select_speed, + .get_last_session = cm206_get_last_session, + .get_mcn = cm206_get_upc, + .reset = cm206_reset, + .audio_ioctl = cm206_audio_ioctl, + .dev_ioctl = cm206_ioctl, + .capability = CDC_CLOSE_TRAY | CDC_OPEN_TRAY | CDC_LOCK | + CDC_MULTI_SESSION | CDC_MEDIA_CHANGED | + CDC_MCN | CDC_PLAY_AUDIO | CDC_SELECT_SPEED | + CDC_IOCTLS | CDC_DRIVE_STATUS, + .n_minors = 1, +}; + + +static struct cdrom_device_info cm206_info = { + .ops = &cm206_dops, + .speed = 2, + .capacity = 1, + .name = "cm206", +}; + +static int cm206_block_open(struct inode *inode, struct file *file) +{ + return cdrom_open(&cm206_info, inode, file); +} + +static int cm206_block_release(struct inode *inode, struct file *file) +{ + return cdrom_release(&cm206_info, file); +} + +static int cm206_block_ioctl(struct inode *inode, struct file *file, + unsigned cmd, unsigned long arg) +{ + return cdrom_ioctl(file, &cm206_info, inode, cmd, arg); +} + +static int cm206_block_media_changed(struct gendisk *disk) +{ + return cdrom_media_changed(&cm206_info); +} + +static struct block_device_operations cm206_bdops = +{ + .owner = THIS_MODULE, + .open = cm206_block_open, + .release = cm206_block_release, + .ioctl = cm206_block_ioctl, + .media_changed = cm206_block_media_changed, +}; + +static struct gendisk *cm206_gendisk; + +/* This function probes for the adapter card. It returns the base + address if it has found the adapter card. One can specify a base + port to probe specifically, or 0 which means span all possible + bases. + + Linus says it is too dangerous to use writes for probing, so we + stick with pure reads for a while. Hope that 8 possible ranges, + request_region, 15 bits of one port and 6 of another make things + likely enough to accept the region on the first hit... + */ +int __init probe_base_port(int base) +{ + int b = 0x300, e = 0x370; /* this is the range of start addresses */ + volatile int fool, i; + + if (base) + b = e = base; + for (base = b; base <= e; base += 0x10) { + if (!request_region(base, 0x10,"cm206")) + continue; + for (i = 0; i < 3; i++) + fool = inw(base + 2); /* empty possibly uart_receive_buffer */ + if ((inw(base + 6) & 0xffef) != 0x0001 || /* line_status */ + (inw(base) & 0xad00) != 0) { /* data status */ + release_region(base,0x10); + continue; + } + return (base); + } + return 0; +} + +#if !defined(MODULE) || defined(AUTO_PROBE_MODULE) +/* Probe for irq# nr. If nr==0, probe for all possible irq's. */ +int __init probe_irq(int nr) +{ + int irqs, irq; + outw(dc_normal | READ_AHEAD, r_data_control); /* disable irq-generation */ + sti(); + irqs = probe_irq_on(); + reset_cm260(); /* causes interrupt */ + udelay(100); /* wait for it */ + irq = probe_irq_off(irqs); + outw(dc_normal | READ_AHEAD, r_data_control); /* services interrupt */ + if (nr && irq != nr && irq > 0) + return 0; /* wrong interrupt happened */ + else + return irq; +} +#endif + +int __init cm206_init(void) +{ + uch e = 0; + long int size = sizeof(struct cm206_struct); + struct gendisk *disk; + + printk(KERN_INFO "cm206 cdrom driver " REVISION); + cm206_base = probe_base_port(auto_probe ? 0 : cm206_base); + if (!cm206_base) { + printk(" can't find adapter!\n"); + return -EIO; + } + printk(" adapter at 0x%x", cm206_base); + cd = (struct cm206_struct *) kmalloc(size, GFP_KERNEL); + if (!cd) + goto out_base; + /* Now we have found the adaptor card, try to reset it. As we have + * found out earlier, this process generates an interrupt as well, + * so we might just exploit that fact for irq probing! */ +#if !defined(MODULE) || defined(AUTO_PROBE_MODULE) + cm206_irq = probe_irq(auto_probe ? 0 : cm206_irq); + if (cm206_irq <= 0) { + printk("can't find IRQ!\n"); + goto out_probe; + } else + printk(" IRQ %d found\n", cm206_irq); +#else + cli(); + reset_cm260(); + /* Now, the problem here is that reset_cm260 can generate an + interrupt. It seems that this can cause a kernel oops some time + later. So we wait a while and `service' this interrupt. */ + mdelay(1); + outw(dc_normal | READ_AHEAD, r_data_control); + sti(); + printk(" using IRQ %d\n", cm206_irq); +#endif + if (send_receive_polled(c_drive_configuration) != + c_drive_configuration) { + printk(KERN_INFO " drive not there\n"); + goto out_probe; + } + e = send_receive_polled(c_gimme); + printk(KERN_INFO "Firmware revision %d", e & dcf_revision_code); + if (e & dcf_transfer_rate) + printk(" double"); + else + printk(" single"); + printk(" speed drive"); + if (e & dcf_motorized_tray) + printk(", motorized tray"); + if (request_irq(cm206_irq, cm206_interrupt, 0, "cm206", NULL)) { + printk("\nUnable to reserve IRQ---aborted\n"); + goto out_probe; + } + printk(".\n"); + + if (register_blkdev(MAJOR_NR, "cm206")) + goto out_blkdev; + + disk = alloc_disk(1); + if (!disk) + goto out_disk; + disk->major = MAJOR_NR; + disk->first_minor = 0; + sprintf(disk->disk_name, "cm206cd"); + disk->fops = &cm206_bdops; + disk->flags = GENHD_FL_CD; + cm206_gendisk = disk; + if (register_cdrom(&cm206_info) != 0) { + printk(KERN_INFO "Cannot register for cdrom %d!\n", MAJOR_NR); + goto out_cdrom; + } + cm206_queue = blk_init_queue(do_cm206_request, &cm206_lock); + if (!cm206_queue) + goto out_queue; + + blk_queue_hardsect_size(cm206_queue, 2048); + disk->queue = cm206_queue; + add_disk(disk); + + memset(cd, 0, sizeof(*cd)); /* give'm some reasonable value */ + cd->sector_last = -1; /* flag no data buffered */ + cd->adapter_last = -1; + init_timer(&cd->timer); + cd->timer.function = cm206_timeout; + cd->max_sectors = (inw(r_data_status) & ds_ram_size) ? 24 : 97; + printk(KERN_INFO "%d kB adapter memory available, " + " %ld bytes kernel memory used.\n", cd->max_sectors * 2, + size); + return 0; + +out_queue: + unregister_cdrom(&cm206_info); +out_cdrom: + put_disk(disk); +out_disk: + unregister_blkdev(MAJOR_NR, "cm206"); +out_blkdev: + free_irq(cm206_irq, NULL); +out_probe: + kfree(cd); +out_base: + release_region(cm206_base, 16); + return -EIO; +} + +#ifdef MODULE + + +static void __init parse_options(void) +{ + int i; + for (i = 0; i < 2; i++) { + if (0x300 <= cm206[i] && i <= 0x370 + && cm206[i] % 0x10 == 0) { + cm206_base = cm206[i]; + auto_probe = 0; + } else if (3 <= cm206[i] && cm206[i] <= 15) { + cm206_irq = cm206[i]; + auto_probe = 0; + } + } +} + +int __cm206_init(void) +{ + parse_options(); +#if !defined(AUTO_PROBE_MODULE) + auto_probe = 0; +#endif + return cm206_init(); +} + +void __exit cm206_exit(void) +{ + del_gendisk(cm206_gendisk); + put_disk(cm206_gendisk); + if (unregister_cdrom(&cm206_info)) { + printk("Can't unregister cdrom cm206\n"); + return; + } + if (unregister_blkdev(MAJOR_NR, "cm206")) { + printk("Can't unregister major cm206\n"); + return; + } + blk_cleanup_queue(cm206_queue); + free_irq(cm206_irq, NULL); + kfree(cd); + release_region(cm206_base, 16); + printk(KERN_INFO "cm206 removed\n"); +} + +module_init(__cm206_init); +module_exit(cm206_exit); + +#else /* !MODULE */ + +/* This setup function accepts either `auto' or numbers in the range + * 3--11 (for irq) or 0x300--0x370 (for base port) or both. */ + +static int __init cm206_setup(char *s) +{ + int i, p[4]; + + (void) get_options(s, ARRAY_SIZE(p), p); + + if (!strcmp(s, "auto")) + auto_probe = 1; + for (i = 1; i <= p[0]; i++) { + if (0x300 <= p[i] && i <= 0x370 && p[i] % 0x10 == 0) { + cm206_base = p[i]; + auto_probe = 0; + } else if (3 <= p[i] && p[i] <= 15) { + cm206_irq = p[i]; + auto_probe = 0; + } + } + return 1; +} + +__setup("cm206=", cm206_setup); + +#endif /* !MODULE */ +MODULE_ALIAS_BLOCKDEV_MAJOR(CM206_CDROM_MAJOR); + +/* + * Local variables: + * compile-command: "gcc -D__KERNEL__ -I/usr/src/linux/include -Wall -Wstrict-prototypes -O2 -fomit-frame-pointer -pipe -fno-strength-reduce -m486 -DMODULE -DMODVERSIONS -include /usr/src/linux/include/linux/modversions.h -c -o cm206.o cm206.c" + * End: + */ |