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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 | /* ********************************************************************** * main.c - Creative EMU10K1 audio driver * Copyright 1999, 2000 Creative Labs, Inc. * ********************************************************************** * * Date Author Summary of changes * ---- ------ ------------------ * October 20, 1999 Bertrand Lee base code release * November 2, 1999 Alan Cox cleaned up stuff * ********************************************************************** * * 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. * ********************************************************************** * * Supported devices: * /dev/dsp: Standard /dev/dsp device, OSS-compatible * /dev/dsp1: Routes to rear speakers only * /dev/mixer: Standard /dev/mixer device, OSS-compatible * /dev/midi: Raw MIDI UART device, mostly OSS-compatible * /dev/sequencer: Sequencer Interface (requires sound.o) * * Revision history: * 0.1 beta Initial release * 0.2 Lowered initial mixer vol. Improved on stuttering wave playback. Added MIDI UART support. * 0.3 Fixed mixer routing bug, added APS, joystick support. * 0.4 Added rear-channel, SPDIF support. * 0.5 Source cleanup, SMP fixes, multiopen support, 64 bit arch fixes, * moved bh's to tasklets, moved to the new PCI driver initialization style. * 0.6 Make use of pci_alloc_consistent, improve compatibility layer for 2.2 kernels, * code reorganization and cleanup. * 0.7 Support for the Emu-APS. Bug fixes for voice cache setup, mmaped sound + poll(). * Support for setting external TRAM size. * 0.8 Make use of the kernel ac97 interface. Support for a dsp patch manager. * 0.9 Re-enables rear speakers volume controls * 0.10 Initializes rear speaker volume. * Dynamic patch storage allocation. * New private ioctls to change control gpr values. * Enable volume control interrupts. * By default enable dsp routes to digital out. * 0.11 Fixed fx / 4 problem. * 0.12 Implemented mmaped for recording. * Fixed bug: not unreserving mmaped buffer pages. * IRQ handler cleanup. * 0.13 Fixed problem with dsp1 * Simplified dsp patch writing (inside the driver) * Fixed several bugs found by the Stanford tools * 0.14 New control gpr to oss mixer mapping feature (Chris Purnell) * Added AC3 Passthrough Support (Juha Yrjola) * Added Support for 5.1 cards (digital out and the third analog out) * 0.15 Added Sequencer Support (Daniel Mack) * Support for multichannel pcm playback (Eduard Hasenleithner) * 0.16 Mixer improvements, added old treble/bass support (Daniel Bertrand) * Small code format cleanup. * Deadlock bug fix for emu10k1_volxxx_irqhandler(). * 0.17 Fix for mixer SOUND_MIXER_INFO ioctl. * Fix for HIGHMEM machines (emu10k1 can only do 31 bit bus master) * midi poll initial implementation. * Small mixer fixes/cleanups. * Improved support for 5.1 cards. * 0.18 Fix for possible leak in pci_alloc_consistent() * Cleaned up poll() functions (audio and midi). Don't start input. * Restrict DMA pages used to 512Mib range. * New AC97_BOOST mixer ioctl. * 0.19a Added Support for Audigy Cards * Real fix for kernel with highmem support (cast dma_handle to u32). * Fix recording buffering parameters calculation. * Use unsigned long for variables in bit ops. * 0.20a Fixed recording startup * Fixed timer rate setting (it's a 16-bit register) * 0.21 Converted code to use pci_name() instead of accessing slot_name * directly (Eugene Teo) *********************************************************************/ /* These are only included once per module */ #include <linux/module.h> #include <linux/slab.h> #include <linux/init.h> #include <linux/delay.h> #include <linux/proc_fs.h> #include "hwaccess.h" #include "8010.h" #include "efxmgr.h" #include "cardwo.h" #include "cardwi.h" #include "cardmo.h" #include "cardmi.h" #include "recmgr.h" #include "ecard.h" #ifdef EMU10K1_SEQUENCER #define MIDI_SYNTH_NAME "EMU10K1 MIDI" #define MIDI_SYNTH_CAPS SYNTH_CAP_INPUT #include "../sound_config.h" #include "../midi_synth.h" /* this should be in dev_table.h */ #define SNDCARD_EMU10K1 46 #endif /* the emu10k1 _seems_ to only supports 29 bit (512MiB) bit bus master */ #define EMU10K1_DMA_MASK 0x1fffffff /* DMA buffer mask for pci_alloc_consist */ #ifndef PCI_VENDOR_ID_CREATIVE #define PCI_VENDOR_ID_CREATIVE 0x1102 #endif #ifndef PCI_DEVICE_ID_CREATIVE_EMU10K1 #define PCI_DEVICE_ID_CREATIVE_EMU10K1 0x0002 #endif #ifndef PCI_DEVICE_ID_CREATIVE_AUDIGY #define PCI_DEVICE_ID_CREATIVE_AUDIGY 0x0004 #endif #define EMU_APS_SUBID 0x40011102 enum { EMU10K1 = 0, AUDIGY, }; static char *card_names[] __devinitdata = { "EMU10K1", "Audigy", }; static struct pci_device_id emu10k1_pci_tbl[] = { {PCI_VENDOR_ID_CREATIVE, PCI_DEVICE_ID_CREATIVE_EMU10K1, PCI_ANY_ID, PCI_ANY_ID, 0, 0, EMU10K1}, {PCI_VENDOR_ID_CREATIVE, PCI_DEVICE_ID_CREATIVE_AUDIGY, PCI_ANY_ID, PCI_ANY_ID, 0, 0, AUDIGY}, {0,} }; MODULE_DEVICE_TABLE(pci, emu10k1_pci_tbl); /* Global var instantiation */ LIST_HEAD(emu10k1_devs); extern struct file_operations emu10k1_audio_fops; extern struct file_operations emu10k1_mixer_fops; extern struct file_operations emu10k1_midi_fops; #ifdef EMU10K1_SEQUENCER static struct midi_operations emu10k1_midi_operations; #endif extern irqreturn_t emu10k1_interrupt(int, void *, struct pt_regs *s); static int __devinit emu10k1_audio_init(struct emu10k1_card *card) { /* Assign default playback voice parameters */ if (card->is_audigy) card->mchannel_fx = 0; else card->mchannel_fx = 8; if (card->is_audigy) { /* mono voice */ card->waveout.send_dcba[SEND_MONO] = 0xffffffff; card->waveout.send_hgfe[SEND_MONO] = 0x0000ffff; /* stereo voice */ /* left */ card->waveout.send_dcba[SEND_LEFT] = 0x00ff00ff; card->waveout.send_hgfe[SEND_LEFT] = 0x00007f7f; /* right */ card->waveout.send_dcba[SEND_RIGHT] = 0xff00ff00; card->waveout.send_hgfe[SEND_RIGHT] = 0x00007f7f; card->waveout.send_routing[ROUTE_PCM] = 0x03020100; // Regular pcm card->waveout.send_routing2[ROUTE_PCM] = 0x07060504; card->waveout.send_routing[ROUTE_PT] = 0x3f3f3d3c; // Passthrough card->waveout.send_routing2[ROUTE_PT] = 0x3f3f3f3f; card->waveout.send_routing[ROUTE_PCM1] = 0x03020100; // Spare card->waveout.send_routing2[ROUTE_PCM1] = 0x07060404; } else { /* mono voice */ card->waveout.send_dcba[SEND_MONO] = 0x0000ffff; /* stereo voice */ /* left */ card->waveout.send_dcba[SEND_LEFT] = 0x000000ff; /* right */ card->waveout.send_dcba[SEND_RIGHT] = 0x0000ff00; card->waveout.send_routing[ROUTE_PCM] = 0x3210; // pcm card->waveout.send_routing[ROUTE_PT] = 0x3210; // passthrough card->waveout.send_routing[ROUTE_PCM1] = 0x7654; // /dev/dsp1 } /* Assign default recording parameters */ /* FIXME */ if (card->is_aps) card->wavein.recsrc = WAVERECORD_FX; else card->wavein.recsrc = WAVERECORD_AC97; card->wavein.fxwc = 0x0003; return 0; } static void emu10k1_audio_cleanup(struct emu10k1_card *card) { } static int __devinit emu10k1_register_devices(struct emu10k1_card *card) { card->audio_dev = register_sound_dsp(&emu10k1_audio_fops, -1); if (card->audio_dev < 0) { printk(KERN_ERR "emu10k1: cannot register first audio device!\n"); goto err_dev; } card->audio_dev1 = register_sound_dsp(&emu10k1_audio_fops, -1); if (card->audio_dev1 < 0) { printk(KERN_ERR "emu10k1: cannot register second audio device!\n"); goto err_dev1; } card->ac97->dev_mixer = register_sound_mixer(&emu10k1_mixer_fops, -1); if (card->ac97->dev_mixer < 0) { printk(KERN_ERR "emu10k1: cannot register mixer device\n"); goto err_mixer; } card->midi_dev = register_sound_midi(&emu10k1_midi_fops, -1); if (card->midi_dev < 0) { printk(KERN_ERR "emu10k1: cannot register midi device!\n"); goto err_midi; } #ifdef EMU10K1_SEQUENCER card->seq_dev = sound_alloc_mididev(); if (card->seq_dev == -1) printk(KERN_WARNING "emu10k1: unable to register sequencer device!"); else { std_midi_synth.midi_dev = card->seq_dev; midi_devs[card->seq_dev] = (struct midi_operations *) kmalloc(sizeof(struct midi_operations), GFP_KERNEL); if (midi_devs[card->seq_dev] == NULL) { printk(KERN_ERR "emu10k1: unable to allocate memory!"); sound_unload_mididev(card->seq_dev); card->seq_dev = -1; /* return without error */ } else { memcpy((char *)midi_devs[card->seq_dev], (char *)&emu10k1_midi_operations, sizeof(struct midi_operations)); midi_devs[card->seq_dev]->devc = card; sequencer_init(); card->seq_mididev = NULL; } } #endif return 0; err_midi: unregister_sound_mixer(card->ac97->dev_mixer); err_mixer: unregister_sound_dsp(card->audio_dev); err_dev1: unregister_sound_dsp(card->audio_dev); err_dev: return -ENODEV; } static void emu10k1_unregister_devices(struct emu10k1_card *card) { #ifdef EMU10K1_SEQUENCER if (card->seq_dev > -1) { kfree(midi_devs[card->seq_dev]); midi_devs[card->seq_dev] = NULL; sound_unload_mididev(card->seq_dev); card->seq_dev = -1; } #endif unregister_sound_midi(card->midi_dev); unregister_sound_mixer(card->ac97->dev_mixer); unregister_sound_dsp(card->audio_dev1); unregister_sound_dsp(card->audio_dev); } static int emu10k1_info_proc (char *page, char **start, off_t off, int count, int *eof, void *data) { struct emu10k1_card *card = data; int len = 0; if (card == NULL) return -ENODEV; len += sprintf (page + len, "Driver Version : %s\n", DRIVER_VERSION); len += sprintf (page + len, "Card type : %s\n", card->is_aps ? "Aps" : (card->is_audigy ? "Audigy" : "Emu10k1")); len += sprintf (page + len, "Revision : %d\n", card->chiprev); len += sprintf (page + len, "Model : %#06x\n", card->model); len += sprintf (page + len, "IO : %#06lx-%#06lx\n", card->iobase, card->iobase + card->length - 1); len += sprintf (page + len, "IRQ : %d\n\n", card->irq); len += sprintf (page + len, "Registered /dev Entries:\n"); len += sprintf (page + len, "/dev/dsp%d\n", card->audio_dev / 16); len += sprintf (page + len, "/dev/dsp%d\n", card->audio_dev1 / 16); len += sprintf (page + len, "/dev/mixer%d\n", card->ac97->dev_mixer / 16); len += sprintf (page + len, "/dev/midi%d\n", card->midi_dev / 16); #ifdef EMU10K1_SEQUENCER len += sprintf (page + len, "/dev/sequencer\n"); #endif return len; } static int __devinit emu10k1_proc_init(struct emu10k1_card *card) { char s[48]; if (!proc_mkdir ("driver/emu10k1", NULL)) { printk(KERN_ERR "emu10k1: unable to create proc directory driver/emu10k1\n"); goto err_out; } sprintf(s, "driver/emu10k1/%s", pci_name(card->pci_dev)); if (!proc_mkdir (s, NULL)) { printk(KERN_ERR "emu10k1: unable to create proc directory %s\n", s); goto err_emu10k1_proc; } sprintf(s, "driver/emu10k1/%s/info", pci_name(card->pci_dev)); if (!create_proc_read_entry (s, 0, NULL, emu10k1_info_proc, card)) { printk(KERN_ERR "emu10k1: unable to create proc entry %s\n", s); goto err_dev_proc; } if (!card->is_aps) { sprintf(s, "driver/emu10k1/%s/ac97", pci_name(card->pci_dev)); if (!create_proc_read_entry (s, 0, NULL, ac97_read_proc, card->ac97)) { printk(KERN_ERR "emu10k1: unable to create proc entry %s\n", s); goto err_proc_ac97; } } return 0; err_proc_ac97: sprintf(s, "driver/emu10k1/%s/info", pci_name(card->pci_dev)); remove_proc_entry(s, NULL); err_dev_proc: sprintf(s, "driver/emu10k1/%s", pci_name(card->pci_dev)); remove_proc_entry(s, NULL); err_emu10k1_proc: remove_proc_entry("driver/emu10k1", NULL); err_out: return -EIO; } static void emu10k1_proc_cleanup(struct emu10k1_card *card) { char s[48]; if (!card->is_aps) { sprintf(s, "driver/emu10k1/%s/ac97", pci_name(card->pci_dev)); remove_proc_entry(s, NULL); } sprintf(s, "driver/emu10k1/%s/info", pci_name(card->pci_dev)); remove_proc_entry(s, NULL); sprintf(s, "driver/emu10k1/%s", pci_name(card->pci_dev)); remove_proc_entry(s, NULL); remove_proc_entry("driver/emu10k1", NULL); } static int __devinit emu10k1_mixer_init(struct emu10k1_card *card) { struct ac97_codec *codec = ac97_alloc_codec(); if(codec == NULL) { printk(KERN_ERR "emu10k1: cannot allocate mixer\n"); return -EIO; } card->ac97 = codec; card->ac97->private_data = card; if (!card->is_aps) { card->ac97->id = 0; card->ac97->codec_read = emu10k1_ac97_read; card->ac97->codec_write = emu10k1_ac97_write; if (ac97_probe_codec (card->ac97) == 0) { printk(KERN_ERR "emu10k1: unable to probe AC97 codec\n"); goto err_out; } /* 5.1: Enable the additional AC97 Slots and unmute extra channels on AC97 codec */ if (codec->codec_read(codec, AC97_EXTENDED_ID) & 0x0080){ printk(KERN_INFO "emu10k1: SBLive! 5.1 card detected\n"); sblive_writeptr(card, AC97SLOT, 0, AC97SLOT_CNTR | AC97SLOT_LFE); codec->codec_write(codec, AC97_SURROUND_MASTER, 0x0); } // Force 5bit: //card->ac97->bit_resolution=5; /* these will store the original values and never be modified */ card->ac97_supported_mixers = card->ac97->supported_mixers; card->ac97_stereo_mixers = card->ac97->stereo_mixers; } return 0; err_out: ac97_release_codec(card->ac97); return -EIO; } static void emu10k1_mixer_cleanup(struct emu10k1_card *card) { ac97_release_codec(card->ac97); } static int __devinit emu10k1_midi_init(struct emu10k1_card *card) { int ret; card->mpuout = kmalloc(sizeof(struct emu10k1_mpuout), GFP_KERNEL); if (card->mpuout == NULL) { printk(KERN_WARNING "emu10k1: Unable to allocate emu10k1_mpuout: out of memory\n"); ret = -ENOMEM; goto err_out1; } memset(card->mpuout, 0, sizeof(struct emu10k1_mpuout)); card->mpuout->intr = 1; card->mpuout->status = FLAGS_AVAILABLE; card->mpuout->state = CARDMIDIOUT_STATE_DEFAULT; tasklet_init(&card->mpuout->tasklet, emu10k1_mpuout_bh, (unsigned long) card); spin_lock_init(&card->mpuout->lock); card->mpuin = kmalloc(sizeof(struct emu10k1_mpuin), GFP_KERNEL); if (card->mpuin == NULL) { printk(KERN_WARNING "emu10k1: Unable to allocate emu10k1_mpuin: out of memory\n"); ret = -ENOMEM; goto err_out2; } memset(card->mpuin, 0, sizeof(struct emu10k1_mpuin)); card->mpuin->status = FLAGS_AVAILABLE; tasklet_init(&card->mpuin->tasklet, emu10k1_mpuin_bh, (unsigned long) card->mpuin); spin_lock_init(&card->mpuin->lock); /* Reset the MPU port */ if (emu10k1_mpu_reset(card) < 0) { ERROR(); ret = -EIO; goto err_out3; } return 0; err_out3: kfree(card->mpuin); err_out2: kfree(card->mpuout); err_out1: return ret; } static void emu10k1_midi_cleanup(struct emu10k1_card *card) { tasklet_kill(&card->mpuout->tasklet); kfree(card->mpuout); tasklet_kill(&card->mpuin->tasklet); kfree(card->mpuin); } static void __devinit voice_init(struct emu10k1_card *card) { int i; for (i = 0; i < NUM_G; i++) card->voicetable[i] = VOICE_USAGE_FREE; } static void __devinit timer_init(struct emu10k1_card *card) { INIT_LIST_HEAD(&card->timers); card->timer_delay = TIMER_STOPPED; spin_lock_init(&card->timer_lock); } static void __devinit addxmgr_init(struct emu10k1_card *card) { u32 count; for (count = 0; count < MAXPAGES; count++) card->emupagetable[count] = 0; /* Mark first page as used */ /* This page is reserved by the driver */ card->emupagetable[0] = 0x8001; card->emupagetable[1] = MAXPAGES - 1; } static void fx_cleanup(struct patch_manager *mgr) { int i; for(i = 0; i < mgr->current_pages; i++) free_page((unsigned long) mgr->patch[i]); } static int __devinit fx_init(struct emu10k1_card *card) { struct patch_manager *mgr = &card->mgr; struct dsp_patch *patch; struct dsp_rpatch *rpatch; s32 left, right; int i; u32 pc = 0; u32 patch_n=0; struct emu_efx_info_t emu_efx_info[2]= {{ 20, 10, 0x400, 0x100, 0x20 }, { 24, 12, 0x600, 0x400, 0x60 }, }; for (i = 0; i < SOUND_MIXER_NRDEVICES; i++) { mgr->ctrl_gpr[i][0] = -1; mgr->ctrl_gpr[i][1] = -1; } if (card->is_audigy) mgr->current_pages = (2 + PATCHES_PER_PAGE - 1) / PATCHES_PER_PAGE; else /* !! The number below must equal the number of patches, currently 11 !! */ mgr->current_pages = (11 + PATCHES_PER_PAGE - 1) / PATCHES_PER_PAGE; for (i = 0; i < mgr->current_pages; i++) { mgr->patch[i] = (void *)__get_free_page(GFP_KERNEL); if (mgr->patch[i] == NULL) { mgr->current_pages = i; fx_cleanup(mgr); return -ENOMEM; } memset(mgr->patch[i], 0, PAGE_SIZE); } if (card->is_audigy) { for (i = 0; i < 1024; i++) OP(0xf, 0x0c0, 0x0c0, 0x0cf, 0x0c0); for (i = 0; i < 512 ; i++) sblive_writeptr(card, A_GPR_BASE+i,0,0); pc=0; //Pcm input volume OP(0, 0x402, 0x0c0, 0x406, 0x000); OP(0, 0x403, 0x0c0, 0x407, 0x001); //CD-Digital input Volume OP(0, 0x404, 0x0c0, 0x40d, 0x42); OP(0, 0x405, 0x0c0, 0x40f, 0x43); // CD + PCM OP(6, 0x400, 0x0c0, 0x402, 0x404); OP(6, 0x401, 0x0c0, 0x403, 0x405); // Front Output + Master Volume OP(0, 0x68, 0x0c0, 0x408, 0x400); OP(0, 0x69, 0x0c0, 0x409, 0x401); // Add-in analog inputs for other speakers OP(6, 0x400, 0x40, 0x400, 0xc0); OP(6, 0x401, 0x41, 0x401, 0xc0); // Digital Front + Master Volume OP(0, 0x60, 0x0c0, 0x408, 0x400); OP(0, 0x61, 0x0c0, 0x409, 0x401); // Rear Output + Rear Volume OP(0, 0x06e, 0x0c0, 0x419, 0x400); OP(0, 0x06f, 0x0c0, 0x41a, 0x401); // Digital Rear Output + Rear Volume OP(0, 0x066, 0x0c0, 0x419, 0x400); OP(0, 0x067, 0x0c0, 0x41a, 0x401); // Audigy Drive, Headphone out OP(6, 0x64, 0x0c0, 0x0c0, 0x400); OP(6, 0x65, 0x0c0, 0x0c0, 0x401); // ac97 Recording OP(6, 0x76, 0x0c0, 0x0c0, 0x40); OP(6, 0x77, 0x0c0, 0x0c0, 0x41); // Center = sub = Left/2 + Right/2 OP(0xe, 0x400, 0x401, 0xcd, 0x400); // center/sub Volume (master) OP(0, 0x06a, 0x0c0, 0x408, 0x400); OP(0, 0x06b, 0x0c0, 0x409, 0x400); // Digital center/sub Volume (master) OP(0, 0x062, 0x0c0, 0x408, 0x400); OP(0, 0x063, 0x0c0, 0x409, 0x400); ROUTING_PATCH_START(rpatch, "Routing"); ROUTING_PATCH_END(rpatch); /* delimiter patch */ patch = PATCH(mgr, patch_n); patch->code_size = 0; sblive_writeptr(card, 0x53, 0, 0); } else { for (i = 0; i < 512 ; i++) OP(6, 0x40, 0x40, 0x40, 0x40); for (i = 0; i < 256; i++) sblive_writeptr_tag(card, 0, FXGPREGBASE + i, 0, TANKMEMADDRREGBASE + i, 0, TAGLIST_END); pc = 0; //first free GPR = 0x11b /* FX volume correction and Volume control*/ INPUT_PATCH_START(patch, "Pcm L vol", 0x0, 0); GET_OUTPUT_GPR(patch, 0x100, 0x0); GET_CONTROL_GPR(patch, 0x106, "Vol", 0, 0x7fffffff); GET_DYNAMIC_GPR(patch, 0x112); OP(4, 0x112, 0x40, PCM_IN_L, 0x44); //*4 OP(0, 0x100, 0x040, 0x112, 0x106); //*vol INPUT_PATCH_END(patch); INPUT_PATCH_START(patch, "Pcm R vol", 0x1, 0); GET_OUTPUT_GPR(patch, 0x101, 0x1); GET_CONTROL_GPR(patch, 0x107, "Vol", 0, 0x7fffffff); GET_DYNAMIC_GPR(patch, 0x112); OP(4, 0x112, 0x40, PCM_IN_R, 0x44); OP(0, 0x101, 0x040, 0x112, 0x107); INPUT_PATCH_END(patch); // CD-Digital In Volume control INPUT_PATCH_START(patch, "CD-Digital Vol L", 0x12, 0); GET_OUTPUT_GPR(patch, 0x10c, 0x12); GET_CONTROL_GPR(patch, 0x10d, "Vol", 0, 0x7fffffff); OP(0, 0x10c, 0x040, SPDIF_CD_L, 0x10d); INPUT_PATCH_END(patch); INPUT_PATCH_START(patch, "CD-Digital Vol R", 0x13, 0); GET_OUTPUT_GPR(patch, 0x10e, 0x13); GET_CONTROL_GPR(patch, 0x10f, "Vol", 0, 0x7fffffff); OP(0, 0x10e, 0x040, SPDIF_CD_R, 0x10f); INPUT_PATCH_END(patch); //Volume Correction for Multi-channel Inputs INPUT_PATCH_START(patch, "Multi-Channel Gain", 0x08, 0); patch->input=patch->output=0x3F00; GET_OUTPUT_GPR(patch, 0x113, MULTI_FRONT_L); GET_OUTPUT_GPR(patch, 0x114, MULTI_FRONT_R); GET_OUTPUT_GPR(patch, 0x115, MULTI_REAR_L); GET_OUTPUT_GPR(patch, 0x116, MULTI_REAR_R); GET_OUTPUT_GPR(patch, 0x117, MULTI_CENTER); GET_OUTPUT_GPR(patch, 0x118, MULTI_LFE); OP(4, 0x113, 0x40, MULTI_FRONT_L, 0x44); OP(4, 0x114, 0x40, MULTI_FRONT_R, 0x44); OP(4, 0x115, 0x40, MULTI_REAR_L, 0x44); OP(4, 0x116, 0x40, MULTI_REAR_R, 0x44); OP(4, 0x117, 0x40, MULTI_CENTER, 0x44); OP(4, 0x118, 0x40, MULTI_LFE, 0x44); INPUT_PATCH_END(patch); //Routing patch start ROUTING_PATCH_START(rpatch, "Routing"); GET_INPUT_GPR(rpatch, 0x100, 0x0); GET_INPUT_GPR(rpatch, 0x101, 0x1); GET_INPUT_GPR(rpatch, 0x10c, 0x12); GET_INPUT_GPR(rpatch, 0x10e, 0x13); GET_INPUT_GPR(rpatch, 0x113, MULTI_FRONT_L); GET_INPUT_GPR(rpatch, 0x114, MULTI_FRONT_R); GET_INPUT_GPR(rpatch, 0x115, MULTI_REAR_L); GET_INPUT_GPR(rpatch, 0x116, MULTI_REAR_R); GET_INPUT_GPR(rpatch, 0x117, MULTI_CENTER); GET_INPUT_GPR(rpatch, 0x118, MULTI_LFE); GET_DYNAMIC_GPR(rpatch, 0x102); GET_DYNAMIC_GPR(rpatch, 0x103); GET_OUTPUT_GPR(rpatch, 0x104, 0x8); GET_OUTPUT_GPR(rpatch, 0x105, 0x9); GET_OUTPUT_GPR(rpatch, 0x10a, 0x2); GET_OUTPUT_GPR(rpatch, 0x10b, 0x3); /* input buffer */ OP(6, 0x102, AC97_IN_L, 0x40, 0x40); OP(6, 0x103, AC97_IN_R, 0x40, 0x40); /* Digital In + PCM + MULTI_FRONT-> AC97 out (front speakers)*/ OP(6, AC97_FRONT_L, 0x100, 0x10c, 0x113); CONNECT(MULTI_FRONT_L, AC97_FRONT_L); CONNECT(PCM_IN_L, AC97_FRONT_L); CONNECT(SPDIF_CD_L, AC97_FRONT_L); OP(6, AC97_FRONT_R, 0x101, 0x10e, 0x114); CONNECT(MULTI_FRONT_R, AC97_FRONT_R); CONNECT(PCM_IN_R, AC97_FRONT_R); CONNECT(SPDIF_CD_R, AC97_FRONT_R); /* Digital In + PCM + AC97 In + PCM1 + MULTI_REAR --> Rear Channel */ OP(6, 0x104, PCM1_IN_L, 0x100, 0x115); OP(6, 0x104, 0x104, 0x10c, 0x102); CONNECT(MULTI_REAR_L, ANALOG_REAR_L); CONNECT(AC97_IN_L, ANALOG_REAR_L); CONNECT(PCM_IN_L, ANALOG_REAR_L); CONNECT(SPDIF_CD_L, ANALOG_REAR_L); CONNECT(PCM1_IN_L, ANALOG_REAR_L); OP(6, 0x105, PCM1_IN_R, 0x101, 0x116); OP(6, 0x105, 0x105, 0x10e, 0x103); CONNECT(MULTI_REAR_R, ANALOG_REAR_R); CONNECT(AC97_IN_R, ANALOG_REAR_R); CONNECT(PCM_IN_R, ANALOG_REAR_R); CONNECT(SPDIF_CD_R, ANALOG_REAR_R); CONNECT(PCM1_IN_R, ANALOG_REAR_R); /* Digital In + PCM + AC97 In + MULTI_FRONT --> Digital out */ OP(6, 0x10b, 0x100, 0x102, 0x10c); OP(6, 0x10b, 0x10b, 0x113, 0x40); CONNECT(MULTI_FRONT_L, DIGITAL_OUT_L); CONNECT(PCM_IN_L, DIGITAL_OUT_L); CONNECT(AC97_IN_L, DIGITAL_OUT_L); CONNECT(SPDIF_CD_L, DIGITAL_OUT_L); OP(6, 0x10a, 0x101, 0x103, 0x10e); OP(6, 0x10b, 0x10b, 0x114, 0x40); CONNECT(MULTI_FRONT_R, DIGITAL_OUT_R); CONNECT(PCM_IN_R, DIGITAL_OUT_R); CONNECT(AC97_IN_R, DIGITAL_OUT_R); CONNECT(SPDIF_CD_R, DIGITAL_OUT_R); /* AC97 In --> ADC Recording Buffer */ OP(6, ADC_REC_L, 0x102, 0x40, 0x40); CONNECT(AC97_IN_L, ADC_REC_L); OP(6, ADC_REC_R, 0x103, 0x40, 0x40); CONNECT(AC97_IN_R, ADC_REC_R); /* fx12:Analog-Center */ OP(6, ANALOG_CENTER, 0x117, 0x40, 0x40); CONNECT(MULTI_CENTER, ANALOG_CENTER); /* fx11:Analog-LFE */ OP(6, ANALOG_LFE, 0x118, 0x40, 0x40); CONNECT(MULTI_LFE, ANALOG_LFE); /* fx12:Digital-Center */ OP(6, DIGITAL_CENTER, 0x117, 0x40, 0x40); CONNECT(MULTI_CENTER, DIGITAL_CENTER); /* fx11:Analog-LFE */ OP(6, DIGITAL_LFE, 0x118, 0x40, 0x40); CONNECT(MULTI_LFE, DIGITAL_LFE); ROUTING_PATCH_END(rpatch); // Rear volume control OUTPUT_PATCH_START(patch, "Vol Rear L", 0x8, 0); GET_INPUT_GPR(patch, 0x104, 0x8); GET_CONTROL_GPR(patch, 0x119, "Vol", 0, 0x7fffffff); OP(0, ANALOG_REAR_L, 0x040, 0x104, 0x119); OUTPUT_PATCH_END(patch); OUTPUT_PATCH_START(patch, "Vol Rear R", 0x9, 0); GET_INPUT_GPR(patch, 0x105, 0x9); GET_CONTROL_GPR(patch, 0x11a, "Vol", 0, 0x7fffffff); OP(0, ANALOG_REAR_R, 0x040, 0x105, 0x11a); OUTPUT_PATCH_END(patch); //Master volume control on front-digital OUTPUT_PATCH_START(patch, "Vol Master L", 0x2, 1); GET_INPUT_GPR(patch, 0x10a, 0x2); GET_CONTROL_GPR(patch, 0x108, "Vol", 0, 0x7fffffff); OP(0, DIGITAL_OUT_L, 0x040, 0x10a, 0x108); OUTPUT_PATCH_END(patch); OUTPUT_PATCH_START(patch, "Vol Master R", 0x3, 1); GET_INPUT_GPR(patch, 0x10b, 0x3); GET_CONTROL_GPR(patch, 0x109, "Vol", 0, 0x7fffffff); OP(0, DIGITAL_OUT_R, 0x040, 0x10b, 0x109); OUTPUT_PATCH_END(patch); /* delimiter patch */ patch = PATCH(mgr, patch_n); patch->code_size = 0; sblive_writeptr(card, DBG, 0, 0); } spin_lock_init(&mgr->lock); // Set up Volume controls, try to keep this the same for both Audigy and Live //Master volume mgr->ctrl_gpr[SOUND_MIXER_VOLUME][0] = 8; mgr->ctrl_gpr[SOUND_MIXER_VOLUME][1] = 9; left = card->ac97->mixer_state[SOUND_MIXER_VOLUME] & 0xff; right = (card->ac97->mixer_state[SOUND_MIXER_VOLUME] >> 8) & 0xff; emu10k1_set_volume_gpr(card, 8, left, 1 << card->ac97->bit_resolution); emu10k1_set_volume_gpr(card, 9, right, 1 << card->ac97->bit_resolution); //Rear volume mgr->ctrl_gpr[ SOUND_MIXER_OGAIN ][0] = 0x19; mgr->ctrl_gpr[ SOUND_MIXER_OGAIN ][1] = 0x1a; left = right = 67; card->ac97->mixer_state[SOUND_MIXER_OGAIN] = (right << 8) | left; card->ac97->supported_mixers |= SOUND_MASK_OGAIN; card->ac97->stereo_mixers |= SOUND_MASK_OGAIN; emu10k1_set_volume_gpr(card, 0x19, left, VOL_5BIT); emu10k1_set_volume_gpr(card, 0x1a, right, VOL_5BIT); //PCM Volume mgr->ctrl_gpr[SOUND_MIXER_PCM][0] = 6; mgr->ctrl_gpr[SOUND_MIXER_PCM][1] = 7; left = card->ac97->mixer_state[SOUND_MIXER_PCM] & 0xff; right = (card->ac97->mixer_state[SOUND_MIXER_PCM] >> 8) & 0xff; emu10k1_set_volume_gpr(card, 6, left, VOL_5BIT); emu10k1_set_volume_gpr(card, 7, right, VOL_5BIT); //CD-Digital Volume mgr->ctrl_gpr[SOUND_MIXER_DIGITAL1][0] = 0xd; mgr->ctrl_gpr[SOUND_MIXER_DIGITAL1][1] = 0xf; left = right = 67; card->ac97->mixer_state[SOUND_MIXER_DIGITAL1] = (right << 8) | left; card->ac97->supported_mixers |= SOUND_MASK_DIGITAL1; card->ac97->stereo_mixers |= SOUND_MASK_DIGITAL1; emu10k1_set_volume_gpr(card, 0xd, left, VOL_5BIT); emu10k1_set_volume_gpr(card, 0xf, right, VOL_5BIT); //hard wire the ac97's pcm, pcm volume is done above using dsp code. if (card->is_audigy) //for Audigy, we mute it and use the philips 6 channel DAC instead emu10k1_ac97_write(card->ac97, 0x18, 0x8000); else //For the Live we hardwire it to full volume emu10k1_ac97_write(card->ac97, 0x18, 0x0); //remove it from the ac97_codec's control card->ac97_supported_mixers &= ~SOUND_MASK_PCM; card->ac97_stereo_mixers &= ~SOUND_MASK_PCM; //set Igain to 0dB by default, maybe consider hardwiring it here. emu10k1_ac97_write(card->ac97, AC97_RECORD_GAIN, 0x0000); card->ac97->mixer_state[SOUND_MIXER_IGAIN] = 0x101; return 0; } static int __devinit hw_init(struct emu10k1_card *card) { int nCh; u32 pagecount; /* tmp */ int ret; /* Disable audio and lock cache */ emu10k1_writefn0(card, HCFG, HCFG_LOCKSOUNDCACHE | HCFG_LOCKTANKCACHE_MASK | HCFG_MUTEBUTTONENABLE); /* Reset recording buffers */ sblive_writeptr_tag(card, 0, MICBS, ADCBS_BUFSIZE_NONE, MICBA, 0, FXBS, ADCBS_BUFSIZE_NONE, FXBA, 0, ADCBS, ADCBS_BUFSIZE_NONE, ADCBA, 0, TAGLIST_END); /* Disable channel interrupt */ emu10k1_writefn0(card, INTE, 0); sblive_writeptr_tag(card, 0, CLIEL, 0, CLIEH, 0, SOLEL, 0, SOLEH, 0, TAGLIST_END); if (card->is_audigy) { sblive_writeptr_tag(card,0, 0x5e,0xf00, 0x5f,0x3, TAGLIST_END); } /* Init envelope engine */ for (nCh = 0; nCh < NUM_G; nCh++) { sblive_writeptr_tag(card, nCh, DCYSUSV, 0, IP, 0, VTFT, 0xffff, CVCF, 0xffff, PTRX, 0, //CPF, 0, CCR, 0, PSST, 0, DSL, 0x10, CCCA, 0, Z1, 0, Z2, 0, FXRT, 0xd01c0000, ATKHLDM, 0, DCYSUSM, 0, IFATN, 0xffff, PEFE, 0, FMMOD, 0, TREMFRQ, 24, /* 1 Hz */ FM2FRQ2, 24, /* 1 Hz */ TEMPENV, 0, /*** These are last so OFF prevents writing ***/ LFOVAL2, 0, LFOVAL1, 0, ATKHLDV, 0, ENVVOL, 0, ENVVAL, 0, TAGLIST_END); sblive_writeptr(card, CPF, nCh, 0); /* Audigy FXRT initialization reversed eng'd, may not be accurate. */ if (card->is_audigy) { sblive_writeptr_tag(card,nCh, 0x4c,0x0, 0x4d,0x0, 0x4e,0x0, 0x4f,0x0, A_FXRT1, 0x3f3f3f3f, A_FXRT2, 0x3f3f3f3f, A_SENDAMOUNTS, 0, TAGLIST_END); } } /* ** Init to 0x02109204 : ** Clock accuracy = 0 (1000ppm) ** Sample Rate = 2 (48kHz) ** Audio Channel = 1 (Left of 2) ** Source Number = 0 (Unspecified) ** Generation Status = 1 (Original for Cat Code 12) ** Cat Code = 12 (Digital Signal Mixer) ** Mode = 0 (Mode 0) ** Emphasis = 0 (None) ** CP = 1 (Copyright unasserted) ** AN = 0 (Digital audio) ** P = 0 (Consumer) */ sblive_writeptr_tag(card, 0, /* SPDIF0 */ SPCS0, (SPCS_CLKACCY_1000PPM | 0x002000000 | SPCS_CHANNELNUM_LEFT | SPCS_SOURCENUM_UNSPEC | SPCS_GENERATIONSTATUS | 0x00001200 | SPCS_EMPHASIS_NONE | SPCS_COPYRIGHT), /* SPDIF1 */ SPCS1, (SPCS_CLKACCY_1000PPM | 0x002000000 | SPCS_CHANNELNUM_LEFT | SPCS_SOURCENUM_UNSPEC | SPCS_GENERATIONSTATUS | 0x00001200 | SPCS_EMPHASIS_NONE | SPCS_COPYRIGHT), /* SPDIF2 & SPDIF3 */ SPCS2, (SPCS_CLKACCY_1000PPM | 0x002000000 | SPCS_CHANNELNUM_LEFT | SPCS_SOURCENUM_UNSPEC | SPCS_GENERATIONSTATUS | 0x00001200 | SPCS_EMPHASIS_NONE | SPCS_COPYRIGHT), TAGLIST_END); if (card->is_audigy && (card->chiprev == 4)) { /* Hacks for Alice3 to work independent of haP16V driver */ u32 tmp; //Setup SRCMulti_I2S SamplingRate tmp = sblive_readptr(card, A_SPDIF_SAMPLERATE, 0); tmp &= 0xfffff1ff; tmp |= (0x2<<9); sblive_writeptr(card, A_SPDIF_SAMPLERATE, 0, tmp); /* Setup SRCSel (Enable Spdif,I2S SRCMulti) */ emu10k1_writefn0(card, 0x20, 0x600000); emu10k1_writefn0(card, 0x24, 0x14); /* Setup SRCMulti Input Audio Enable */ emu10k1_writefn0(card, 0x20, 0x6E0000); emu10k1_writefn0(card, 0x24, 0xFF00FF00); } ret = fx_init(card); /* initialize effects engine */ if (ret < 0) return ret; card->tankmem.size = 0; card->virtualpagetable.size = MAXPAGES * sizeof(u32); card->virtualpagetable.addr = pci_alloc_consistent(card->pci_dev, card->virtualpagetable.size, &card->virtualpagetable.dma_handle); if (card->virtualpagetable.addr == NULL) { ERROR(); ret = -ENOMEM; goto err0; } card->silentpage.size = EMUPAGESIZE; card->silentpage.addr = pci_alloc_consistent(card->pci_dev, card->silentpage.size, &card->silentpage.dma_handle); if (card->silentpage.addr == NULL) { ERROR(); ret = -ENOMEM; goto err1; } for (pagecount = 0; pagecount < MAXPAGES; pagecount++) ((u32 *) card->virtualpagetable.addr)[pagecount] = cpu_to_le32(((u32) card->silentpage.dma_handle * 2) | pagecount); /* Init page table & tank memory base register */ sblive_writeptr_tag(card, 0, PTB, (u32) card->virtualpagetable.dma_handle, TCB, 0, TCBS, 0, TAGLIST_END); for (nCh = 0; nCh < NUM_G; nCh++) { sblive_writeptr_tag(card, nCh, MAPA, MAP_PTI_MASK | ((u32) card->silentpage.dma_handle * 2), MAPB, MAP_PTI_MASK | ((u32) card->silentpage.dma_handle * 2), TAGLIST_END); } /* Hokay, now enable the AUD bit */ /* Enable Audio = 1 */ /* Mute Disable Audio = 0 */ /* Lock Tank Memory = 1 */ /* Lock Sound Memory = 0 */ /* Auto Mute = 1 */ if (card->is_audigy) { if (card->chiprev == 4) emu10k1_writefn0(card, HCFG, HCFG_AUDIOENABLE | HCFG_AC3ENABLE_CDSPDIF | HCFG_AC3ENABLE_GPSPDIF | HCFG_AUTOMUTE | HCFG_JOYENABLE); else emu10k1_writefn0(card, HCFG, HCFG_AUDIOENABLE | HCFG_AUTOMUTE | HCFG_JOYENABLE); } else { if (card->model == 0x20 || card->model == 0xc400 || (card->model == 0x21 && card->chiprev < 6)) emu10k1_writefn0(card, HCFG, HCFG_AUDIOENABLE | HCFG_LOCKTANKCACHE_MASK | HCFG_AUTOMUTE); else emu10k1_writefn0(card, HCFG, HCFG_AUDIOENABLE | HCFG_LOCKTANKCACHE_MASK | HCFG_AUTOMUTE | HCFG_JOYENABLE); } /* Enable Vol_Ctrl irqs */ emu10k1_irq_enable(card, INTE_VOLINCRENABLE | INTE_VOLDECRENABLE | INTE_MUTEENABLE | INTE_FXDSPENABLE); if (card->is_audigy && (card->chiprev == 4)) { /* Unmute Analog now. Set GPO6 to 1 for Apollo. * This has to be done after init ALice3 I2SOut beyond 48KHz. * So, sequence is important. */ u32 tmp = emu10k1_readfn0(card, A_IOCFG); tmp |= 0x0040; emu10k1_writefn0(card, A_IOCFG, tmp); } /* FIXME: TOSLink detection */ card->has_toslink = 0; /* Initialize digital passthrough variables */ card->pt.pos_gpr = card->pt.intr_gpr = card->pt.enable_gpr = -1; card->pt.selected = 0; card->pt.state = PT_STATE_INACTIVE; card->pt.spcs_to_use = 0x01; card->pt.patch_name = "AC3pass"; card->pt.intr_gpr_name = "count"; card->pt.enable_gpr_name = "enable"; card->pt.pos_gpr_name = "ptr"; spin_lock_init(&card->pt.lock); init_waitqueue_head(&card->pt.wait); /* tmp = sblive_readfn0(card, HCFG); if (tmp & (HCFG_GPINPUT0 | HCFG_GPINPUT1)) { sblive_writefn0(card, HCFG, tmp | 0x800); udelay(512); if (tmp != (sblive_readfn0(card, HCFG) & ~0x800)) { card->has_toslink = 1; sblive_writefn0(card, HCFG, tmp); } } */ return 0; err1: pci_free_consistent(card->pci_dev, card->virtualpagetable.size, card->virtualpagetable.addr, card->virtualpagetable.dma_handle); err0: fx_cleanup(&card->mgr); return ret; } static int __devinit emu10k1_init(struct emu10k1_card *card) { /* Init Card */ if (hw_init(card) < 0) return -1; voice_init(card); timer_init(card); addxmgr_init(card); DPD(2, " hw control register -> %#x\n", emu10k1_readfn0(card, HCFG)); return 0; } static void emu10k1_cleanup(struct emu10k1_card *card) { int ch; emu10k1_writefn0(card, INTE, 0); /** Shutdown the chip **/ for (ch = 0; ch < NUM_G; ch++) sblive_writeptr(card, DCYSUSV, ch, 0); for (ch = 0; ch < NUM_G; ch++) { sblive_writeptr_tag(card, ch, VTFT, 0, CVCF, 0, PTRX, 0, //CPF, 0, TAGLIST_END); sblive_writeptr(card, CPF, ch, 0); } /* Disable audio and lock cache */ emu10k1_writefn0(card, HCFG, HCFG_LOCKSOUNDCACHE | HCFG_LOCKTANKCACHE_MASK | HCFG_MUTEBUTTONENABLE); sblive_writeptr_tag(card, 0, PTB, 0, /* Reset recording buffers */ MICBS, ADCBS_BUFSIZE_NONE, MICBA, 0, FXBS, ADCBS_BUFSIZE_NONE, FXBA, 0, FXWC, 0, ADCBS, ADCBS_BUFSIZE_NONE, ADCBA, 0, TCBS, 0, TCB, 0, DBG, 0x8000, /* Disable channel interrupt */ CLIEL, 0, CLIEH, 0, SOLEL, 0, SOLEH, 0, TAGLIST_END); if (card->is_audigy) sblive_writeptr(card, 0, A_DBG, A_DBG_SINGLE_STEP); pci_free_consistent(card->pci_dev, card->virtualpagetable.size, card->virtualpagetable.addr, card->virtualpagetable.dma_handle); pci_free_consistent(card->pci_dev, card->silentpage.size, card->silentpage.addr, card->silentpage.dma_handle); if(card->tankmem.size != 0) pci_free_consistent(card->pci_dev, card->tankmem.size, card->tankmem.addr, card->tankmem.dma_handle); /* release patch storage memory */ fx_cleanup(&card->mgr); } /* Driver initialization routine */ static int __devinit emu10k1_probe(struct pci_dev *pci_dev, const struct pci_device_id *pci_id) { struct emu10k1_card *card; u32 subsysvid; int ret; if (pci_set_dma_mask(pci_dev, EMU10K1_DMA_MASK)) { printk(KERN_ERR "emu10k1: architecture does not support 29bit PCI busmaster DMA\n"); return -ENODEV; } if (pci_enable_device(pci_dev)) return -EIO; pci_set_master(pci_dev); if ((card = kmalloc(sizeof(struct emu10k1_card), GFP_KERNEL)) == NULL) { printk(KERN_ERR "emu10k1: out of memory\n"); return -ENOMEM; } memset(card, 0, sizeof(struct emu10k1_card)); card->iobase = pci_resource_start(pci_dev, 0); card->length = pci_resource_len(pci_dev, 0); if (request_region(card->iobase, card->length, card_names[pci_id->driver_data]) == NULL) { printk(KERN_ERR "emu10k1: IO space in use\n"); ret = -EBUSY; goto err_region; } pci_set_drvdata(pci_dev, card); card->irq = pci_dev->irq; card->pci_dev = pci_dev; /* Reserve IRQ Line */ if (request_irq(card->irq, emu10k1_interrupt, SA_SHIRQ, card_names[pci_id->driver_data], card)) { printk(KERN_ERR "emu10k1: IRQ in use\n"); ret = -EBUSY; goto err_irq; } pci_read_config_byte(pci_dev, PCI_REVISION_ID, &card->chiprev); pci_read_config_word(pci_dev, PCI_SUBSYSTEM_ID, &card->model); printk(KERN_INFO "emu10k1: %s rev %d model %#04x found, IO at %#04lx-%#04lx, IRQ %d\n", card_names[pci_id->driver_data], card->chiprev, card->model, card->iobase, card->iobase + card->length - 1, card->irq); if (pci_id->device == PCI_DEVICE_ID_CREATIVE_AUDIGY) card->is_audigy = 1; pci_read_config_dword(pci_dev, PCI_SUBSYSTEM_VENDOR_ID, &subsysvid); card->is_aps = (subsysvid == EMU_APS_SUBID); spin_lock_init(&card->lock); init_MUTEX(&card->open_sem); card->open_mode = 0; init_waitqueue_head(&card->open_wait); ret = emu10k1_audio_init(card); if (ret < 0) { printk(KERN_ERR "emu10k1: cannot initialize audio devices\n"); goto err_audio; } ret = emu10k1_mixer_init(card); if (ret < 0) { printk(KERN_ERR "emu10k1: cannot initialize AC97 codec\n"); goto err_mixer; } ret = emu10k1_midi_init(card); if (ret < 0) { printk(KERN_ERR "emu10k1: cannot register midi device\n"); goto err_midi; } ret = emu10k1_init(card); if (ret < 0) { printk(KERN_ERR "emu10k1: cannot initialize device\n"); goto err_emu10k1_init; } if (card->is_aps) emu10k1_ecard_init(card); ret = emu10k1_register_devices(card); if (ret < 0) goto err_register; /* proc entries must be created after registering devices, as * emu10k1_info_proc prints card->audio_dev &co. */ ret = emu10k1_proc_init(card); if (ret < 0) { printk(KERN_ERR "emu10k1: cannot initialize proc directory\n"); goto err_proc; } list_add(&card->list, &emu10k1_devs); return 0; err_proc: emu10k1_unregister_devices(card); err_register: emu10k1_cleanup(card); err_emu10k1_init: emu10k1_midi_cleanup(card); err_midi: emu10k1_mixer_cleanup(card); err_mixer: emu10k1_audio_cleanup(card); err_audio: free_irq(card->irq, card); err_irq: release_region(card->iobase, card->length); pci_set_drvdata(pci_dev, NULL); err_region: kfree(card); return ret; } static void __devexit emu10k1_remove(struct pci_dev *pci_dev) { struct emu10k1_card *card = pci_get_drvdata(pci_dev); list_del(&card->list); emu10k1_unregister_devices(card); emu10k1_cleanup(card); emu10k1_midi_cleanup(card); emu10k1_mixer_cleanup(card); emu10k1_proc_cleanup(card); emu10k1_audio_cleanup(card); free_irq(card->irq, card); release_region(card->iobase, card->length); kfree(card); pci_set_drvdata(pci_dev, NULL); } MODULE_AUTHOR("Bertrand Lee, Cai Ying. (Email to: emu10k1-devel@lists.sourceforge.net)"); MODULE_DESCRIPTION("Creative EMU10K1 PCI Audio Driver v" DRIVER_VERSION "\nCopyright (C) 1999 Creative Technology Ltd."); MODULE_LICENSE("GPL"); static struct pci_driver emu10k1_pci_driver = { .name = "emu10k1", .id_table = emu10k1_pci_tbl, .probe = emu10k1_probe, .remove = __devexit_p(emu10k1_remove), }; static int __init emu10k1_init_module(void) { printk(KERN_INFO "Creative EMU10K1 PCI Audio Driver, version " DRIVER_VERSION ", " __TIME__ " " __DATE__ "\n"); return pci_register_driver(&emu10k1_pci_driver); } static void __exit emu10k1_cleanup_module(void) { pci_unregister_driver(&emu10k1_pci_driver); return; } module_init(emu10k1_init_module); module_exit(emu10k1_cleanup_module); #ifdef EMU10K1_SEQUENCER /* in midi.c */ extern int emu10k1_seq_midi_open(int dev, int mode, void (*input)(int dev, unsigned char midi_byte), void (*output)(int dev)); extern void emu10k1_seq_midi_close(int dev); extern int emu10k1_seq_midi_out(int dev, unsigned char midi_byte); extern int emu10k1_seq_midi_start_read(int dev); extern int emu10k1_seq_midi_end_read(int dev); extern void emu10k1_seq_midi_kick(int dev); extern int emu10k1_seq_midi_buffer_status(int dev); static struct midi_operations emu10k1_midi_operations = { THIS_MODULE, {"EMU10K1 MIDI", 0, 0, SNDCARD_EMU10K1}, &std_midi_synth, {0}, emu10k1_seq_midi_open, emu10k1_seq_midi_close, NULL, emu10k1_seq_midi_out, emu10k1_seq_midi_start_read, emu10k1_seq_midi_end_read, emu10k1_seq_midi_kick, NULL, emu10k1_seq_midi_buffer_status, NULL }; #endif |