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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 /sound/pci/vx222 | |
download | blackbird-op-linux-1da177e4c3f41524e886b7f1b8a0c1fc7321cac2.tar.gz blackbird-op-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 'sound/pci/vx222')
-rw-r--r-- | sound/pci/vx222/Makefile | 8 | ||||
-rw-r--r-- | sound/pci/vx222/vx222.c | 272 | ||||
-rw-r--r-- | sound/pci/vx222/vx222.h | 114 | ||||
-rw-r--r-- | sound/pci/vx222/vx222_ops.c | 1004 |
4 files changed, 1398 insertions, 0 deletions
diff --git a/sound/pci/vx222/Makefile b/sound/pci/vx222/Makefile new file mode 100644 index 000000000000..058c8bff7c11 --- /dev/null +++ b/sound/pci/vx222/Makefile @@ -0,0 +1,8 @@ +# +# Makefile for ALSA +# Copyright (c) 2001 by Jaroslav Kysela <perex@suse.cz> +# + +snd-vx222-objs := vx222.o vx222_ops.o + +obj-$(CONFIG_SND_VX222) += snd-vx222.o diff --git a/sound/pci/vx222/vx222.c b/sound/pci/vx222/vx222.c new file mode 100644 index 000000000000..4ffbb25658a5 --- /dev/null +++ b/sound/pci/vx222/vx222.c @@ -0,0 +1,272 @@ +/* + * Driver for Digigram VX222 V2/Mic PCI soundcards + * + * Copyright (c) 2002 by Takashi Iwai <tiwai@suse.de> + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +#include <sound/driver.h> +#include <linux/init.h> +#include <linux/interrupt.h> +#include <linux/pci.h> +#include <linux/slab.h> +#include <linux/moduleparam.h> +#include <sound/core.h> +#include <sound/initval.h> +#include "vx222.h" + +#define CARD_NAME "VX222" + +MODULE_AUTHOR("Takashi Iwai <tiwai@suse.de>"); +MODULE_DESCRIPTION("Digigram VX222 V2/Mic"); +MODULE_LICENSE("GPL"); +MODULE_SUPPORTED_DEVICE("{{Digigram," CARD_NAME "}}"); + +static int index[SNDRV_CARDS] = SNDRV_DEFAULT_IDX; /* Index 0-MAX */ +static char *id[SNDRV_CARDS] = SNDRV_DEFAULT_STR; /* ID for this card */ +static int enable[SNDRV_CARDS] = SNDRV_DEFAULT_ENABLE_PNP; /* Enable this card */ +static int mic[SNDRV_CARDS]; /* microphone */ +static int ibl[SNDRV_CARDS]; /* microphone */ + +module_param_array(index, int, NULL, 0444); +MODULE_PARM_DESC(index, "Index value for Digigram " CARD_NAME " soundcard."); +module_param_array(id, charp, NULL, 0444); +MODULE_PARM_DESC(id, "ID string for Digigram " CARD_NAME " soundcard."); +module_param_array(enable, bool, NULL, 0444); +MODULE_PARM_DESC(enable, "Enable Digigram " CARD_NAME " soundcard."); +module_param_array(mic, bool, NULL, 0444); +MODULE_PARM_DESC(mic, "Enable Microphone."); +module_param_array(ibl, int, NULL, 0444); +MODULE_PARM_DESC(ibl, "Capture IBL size."); + +/* + */ + +enum { + VX_PCI_VX222_OLD, + VX_PCI_VX222_NEW +}; + +static struct pci_device_id snd_vx222_ids[] = { + { 0x10b5, 0x9050, 0x1369, PCI_ANY_ID, 0, 0, VX_PCI_VX222_OLD, }, /* PLX */ + { 0x10b5, 0x9030, 0x1369, PCI_ANY_ID, 0, 0, VX_PCI_VX222_NEW, }, /* PLX */ + { 0, } +}; + +MODULE_DEVICE_TABLE(pci, snd_vx222_ids); + + +/* + */ + +static struct snd_vx_hardware vx222_old_hw = { + + .name = "VX222/Old", + .type = VX_TYPE_BOARD, + /* hw specs */ + .num_codecs = 1, + .num_ins = 1, + .num_outs = 1, + .output_level_max = VX_ANALOG_OUT_LEVEL_MAX, +}; + +static struct snd_vx_hardware vx222_v2_hw = { + + .name = "VX222/v2", + .type = VX_TYPE_V2, + /* hw specs */ + .num_codecs = 1, + .num_ins = 1, + .num_outs = 1, + .output_level_max = VX2_AKM_LEVEL_MAX, +}; + +static struct snd_vx_hardware vx222_mic_hw = { + + .name = "VX222/Mic", + .type = VX_TYPE_MIC, + /* hw specs */ + .num_codecs = 1, + .num_ins = 1, + .num_outs = 1, + .output_level_max = VX2_AKM_LEVEL_MAX, +}; + + +/* + */ +static int snd_vx222_free(vx_core_t *chip) +{ + struct snd_vx222 *vx = (struct snd_vx222 *)chip; + + if (chip->irq >= 0) + free_irq(chip->irq, (void*)chip); + if (vx->port[0]) + pci_release_regions(vx->pci); + pci_disable_device(vx->pci); + kfree(chip); + return 0; +} + +static int snd_vx222_dev_free(snd_device_t *device) +{ + vx_core_t *chip = device->device_data; + return snd_vx222_free(chip); +} + + +static int __devinit snd_vx222_create(snd_card_t *card, struct pci_dev *pci, + struct snd_vx_hardware *hw, + struct snd_vx222 **rchip) +{ + vx_core_t *chip; + struct snd_vx222 *vx; + int i, err; + static snd_device_ops_t ops = { + .dev_free = snd_vx222_dev_free, + }; + struct snd_vx_ops *vx_ops; + + /* enable PCI device */ + if ((err = pci_enable_device(pci)) < 0) + return err; + pci_set_master(pci); + + vx_ops = hw->type == VX_TYPE_BOARD ? &vx222_old_ops : &vx222_ops; + chip = snd_vx_create(card, hw, vx_ops, + sizeof(struct snd_vx222) - sizeof(vx_core_t)); + if (! chip) { + pci_disable_device(pci); + return -ENOMEM; + } + vx = (struct snd_vx222 *)chip; + vx->pci = pci; + + if ((err = pci_request_regions(pci, CARD_NAME)) < 0) { + snd_vx222_free(chip); + return err; + } + for (i = 0; i < 2; i++) + vx->port[i] = pci_resource_start(pci, i + 1); + + if (request_irq(pci->irq, snd_vx_irq_handler, SA_INTERRUPT|SA_SHIRQ, + CARD_NAME, (void *) chip)) { + snd_printk(KERN_ERR "unable to grab IRQ %d\n", pci->irq); + snd_vx222_free(chip); + return -EBUSY; + } + chip->irq = pci->irq; + + if ((err = snd_device_new(card, SNDRV_DEV_LOWLEVEL, chip, &ops)) < 0) { + snd_vx222_free(chip); + return err; + } + + snd_card_set_dev(card, &pci->dev); + + *rchip = vx; + return 0; +} + + +static int __devinit snd_vx222_probe(struct pci_dev *pci, + const struct pci_device_id *pci_id) +{ + static int dev; + snd_card_t *card; + struct snd_vx_hardware *hw; + struct snd_vx222 *vx; + int err; + + if (dev >= SNDRV_CARDS) + return -ENODEV; + if (!enable[dev]) { + dev++; + return -ENOENT; + } + + card = snd_card_new(index[dev], id[dev], THIS_MODULE, 0); + if (card == NULL) + return -ENOMEM; + + switch ((int)pci_id->driver_data) { + case VX_PCI_VX222_OLD: + hw = &vx222_old_hw; + break; + case VX_PCI_VX222_NEW: + default: + if (mic[dev]) + hw = &vx222_mic_hw; + else + hw = &vx222_v2_hw; + break; + } + if ((err = snd_vx222_create(card, pci, hw, &vx)) < 0) { + snd_card_free(card); + return err; + } + vx->core.ibl.size = ibl[dev]; + + sprintf(card->longname, "%s at 0x%lx & 0x%lx, irq %i", + card->shortname, vx->port[0], vx->port[1], vx->core.irq); + snd_printdd("%s at 0x%lx & 0x%lx, irq %i\n", + card->shortname, vx->port[0], vx->port[1], vx->core.irq); + +#ifdef SND_VX_FW_LOADER + vx->core.dev = &pci->dev; +#endif + + if ((err = snd_vx_setup_firmware(&vx->core)) < 0) { + snd_card_free(card); + return err; + } + + if ((err = snd_card_register(card)) < 0) { + snd_card_free(card); + return err; + } + + pci_set_drvdata(pci, card); + dev++; + return 0; +} + +static void __devexit snd_vx222_remove(struct pci_dev *pci) +{ + snd_card_free(pci_get_drvdata(pci)); + pci_set_drvdata(pci, NULL); +} + +static struct pci_driver driver = { + .name = "Digigram VX222", + .id_table = snd_vx222_ids, + .probe = snd_vx222_probe, + .remove = __devexit_p(snd_vx222_remove), + SND_PCI_PM_CALLBACKS +}; + +static int __init alsa_card_vx222_init(void) +{ + return pci_module_init(&driver); +} + +static void __exit alsa_card_vx222_exit(void) +{ + pci_unregister_driver(&driver); +} + +module_init(alsa_card_vx222_init) +module_exit(alsa_card_vx222_exit) diff --git a/sound/pci/vx222/vx222.h b/sound/pci/vx222/vx222.h new file mode 100644 index 000000000000..18478ae124a9 --- /dev/null +++ b/sound/pci/vx222/vx222.h @@ -0,0 +1,114 @@ +/* + * Driver for Digigram VX222 PCI soundcards + * + * Copyright (c) 2002 by Takashi Iwai <tiwai@suse.de> + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +#ifndef __VX222_H +#define __VX222_H + +#include <sound/vx_core.h> + +struct snd_vx222 { + + vx_core_t core; + + /* h/w config; for PLX and for DSP */ + struct pci_dev *pci; + unsigned long port[2]; + + unsigned int regCDSP; /* current CDSP register */ + unsigned int regCFG; /* current CFG register */ + unsigned int regSELMIC; /* current SELMIC reg. (for VX222 Mic) */ + + int input_level[2]; /* input level for vx222 mic */ + int mic_level; /* mic level for vx222 mic */ +}; + +/* we use a lookup table with 148 values, see vx_mixer.c */ +#define VX2_AKM_LEVEL_MAX 0x93 + +extern struct snd_vx_ops vx222_ops; +extern struct snd_vx_ops vx222_old_ops; + +/* Offset of registers with base equal to portDSP. */ +#define VX_RESET_DMA_REGISTER_OFFSET 0x00000008 + +/* Constants used to access the INTCSR register. */ +#define VX_INTCSR_VALUE 0x00000001 +#define VX_PCI_INTERRUPT_MASK 0x00000040 + +/* Constants used to access the CDSP register (0x20). */ +#define VX_CDSP_TEST1_MASK 0x00000080 +#define VX_CDSP_TOR1_MASK 0x00000040 +#define VX_CDSP_TOR2_MASK 0x00000020 +#define VX_CDSP_RESERVED0_0_MASK 0x00000010 +#define VX_CDSP_CODEC_RESET_MASK 0x00000008 +#define VX_CDSP_VALID_IRQ_MASK 0x00000004 +#define VX_CDSP_TEST0_MASK 0x00000002 +#define VX_CDSP_DSP_RESET_MASK 0x00000001 + +#define VX_CDSP_GPIO_OUT_MASK 0x00000060 +#define VX_GPIO_OUT_BIT_OFFSET 5 // transform output to bit 0 and 1 + +/* Constants used to access the CFG register (0x24). */ +#define VX_CFG_SYNCDSP_MASK 0x00000080 +#define VX_CFG_RESERVED0_0_MASK 0x00000040 +#define VX_CFG_RESERVED1_0_MASK 0x00000020 +#define VX_CFG_RESERVED2_0_MASK 0x00000010 +#define VX_CFG_DATAIN_SEL_MASK 0x00000008 // 0 (ana), 1 (UER) +#define VX_CFG_RESERVED3_0_MASK 0x00000004 +#define VX_CFG_RESERVED4_0_MASK 0x00000002 +#define VX_CFG_CLOCKIN_SEL_MASK 0x00000001 // 0 (internal), 1 (AES/EBU) + +/* Constants used to access the STATUS register (0x30). */ +#define VX_STATUS_DATA_XICOR_MASK 0x00000080 +#define VX_STATUS_VAL_TEST1_MASK 0x00000040 +#define VX_STATUS_VAL_TEST0_MASK 0x00000020 +#define VX_STATUS_RESERVED0_MASK 0x00000010 +#define VX_STATUS_VAL_TOR1_MASK 0x00000008 +#define VX_STATUS_VAL_TOR0_MASK 0x00000004 +#define VX_STATUS_LEVEL_IN_MASK 0x00000002 // 6 dBu (0), 22 dBu (1) +#define VX_STATUS_MEMIRQ_MASK 0x00000001 + +#define VX_STATUS_GPIO_IN_MASK 0x0000000C +#define VX_GPIO_IN_BIT_OFFSET 0 // leave input as bit 2 and 3 + +/* Constants used to access the MICRO INPUT SELECT register (0x40). */ +#define MICRO_SELECT_INPUT_NORM 0x00 +#define MICRO_SELECT_INPUT_MUTE 0x01 +#define MICRO_SELECT_INPUT_LIMIT 0x02 +#define MICRO_SELECT_INPUT_MASK 0x03 + +#define MICRO_SELECT_PREAMPLI_G_0 0x00 +#define MICRO_SELECT_PREAMPLI_G_1 0x04 +#define MICRO_SELECT_PREAMPLI_G_2 0x08 +#define MICRO_SELECT_PREAMPLI_G_3 0x0C +#define MICRO_SELECT_PREAMPLI_MASK 0x0C +#define MICRO_SELECT_PREAMPLI_OFFSET 2 + +#define MICRO_SELECT_RAISE_COMPR 0x10 + +#define MICRO_SELECT_NOISE_T_52DB 0x00 +#define MICRO_SELECT_NOISE_T_42DB 0x20 +#define MICRO_SELECT_NOISE_T_32DB 0x40 +#define MICRO_SELECT_NOISE_T_MASK 0x60 + +#define MICRO_SELECT_PHANTOM_ALIM 0x80 + + +#endif /* __VX222_H */ diff --git a/sound/pci/vx222/vx222_ops.c b/sound/pci/vx222/vx222_ops.c new file mode 100644 index 000000000000..683e9799976f --- /dev/null +++ b/sound/pci/vx222/vx222_ops.c @@ -0,0 +1,1004 @@ +/* + * Driver for Digigram VX222 V2/Mic soundcards + * + * VX222-specific low-level routines + * + * Copyright (c) 2002 by Takashi Iwai <tiwai@suse.de> + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + +#include <sound/driver.h> +#include <linux/delay.h> +#include <linux/device.h> +#include <linux/firmware.h> +#include <sound/core.h> +#include <sound/control.h> +#include <asm/io.h> +#include "vx222.h" + + +static int vx2_reg_offset[VX_REG_MAX] = { + [VX_ICR] = 0x00, + [VX_CVR] = 0x04, + [VX_ISR] = 0x08, + [VX_IVR] = 0x0c, + [VX_RXH] = 0x14, + [VX_RXM] = 0x18, + [VX_RXL] = 0x1c, + [VX_DMA] = 0x10, + [VX_CDSP] = 0x20, + [VX_CFG] = 0x24, + [VX_RUER] = 0x28, + [VX_DATA] = 0x2c, + [VX_STATUS] = 0x30, + [VX_LOFREQ] = 0x34, + [VX_HIFREQ] = 0x38, + [VX_CSUER] = 0x3c, + [VX_SELMIC] = 0x40, + [VX_COMPOT] = 0x44, // Write: POTENTIOMETER ; Read: COMPRESSION LEVEL activate + [VX_SCOMPR] = 0x48, // Read: COMPRESSION THRESHOLD activate + [VX_GLIMIT] = 0x4c, // Read: LEVEL LIMITATION activate + [VX_INTCSR] = 0x4c, // VX_INTCSR_REGISTER_OFFSET + [VX_CNTRL] = 0x50, // VX_CNTRL_REGISTER_OFFSET + [VX_GPIOC] = 0x54, // VX_GPIOC (new with PLX9030) +}; + +static int vx2_reg_index[VX_REG_MAX] = { + [VX_ICR] = 1, + [VX_CVR] = 1, + [VX_ISR] = 1, + [VX_IVR] = 1, + [VX_RXH] = 1, + [VX_RXM] = 1, + [VX_RXL] = 1, + [VX_DMA] = 1, + [VX_CDSP] = 1, + [VX_CFG] = 1, + [VX_RUER] = 1, + [VX_DATA] = 1, + [VX_STATUS] = 1, + [VX_LOFREQ] = 1, + [VX_HIFREQ] = 1, + [VX_CSUER] = 1, + [VX_SELMIC] = 1, + [VX_COMPOT] = 1, + [VX_SCOMPR] = 1, + [VX_GLIMIT] = 1, + [VX_INTCSR] = 0, /* on the PLX */ + [VX_CNTRL] = 0, /* on the PLX */ + [VX_GPIOC] = 0, /* on the PLX */ +}; + +inline static unsigned long vx2_reg_addr(vx_core_t *_chip, int reg) +{ + struct snd_vx222 *chip = (struct snd_vx222 *)_chip; + return chip->port[vx2_reg_index[reg]] + vx2_reg_offset[reg]; +} + +/** + * snd_vx_inb - read a byte from the register + * @offset: register enum + */ +static unsigned char vx2_inb(vx_core_t *chip, int offset) +{ + return inb(vx2_reg_addr(chip, offset)); +} + +/** + * snd_vx_outb - write a byte on the register + * @offset: the register offset + * @val: the value to write + */ +static void vx2_outb(vx_core_t *chip, int offset, unsigned char val) +{ + outb(val, vx2_reg_addr(chip, offset)); + //printk("outb: %x -> %x\n", val, vx2_reg_addr(chip, offset)); +} + +/** + * snd_vx_inl - read a 32bit word from the register + * @offset: register enum + */ +static unsigned int vx2_inl(vx_core_t *chip, int offset) +{ + return inl(vx2_reg_addr(chip, offset)); +} + +/** + * snd_vx_outl - write a 32bit word on the register + * @offset: the register enum + * @val: the value to write + */ +static void vx2_outl(vx_core_t *chip, int offset, unsigned int val) +{ + // printk("outl: %x -> %x\n", val, vx2_reg_addr(chip, offset)); + outl(val, vx2_reg_addr(chip, offset)); +} + +/* + * redefine macros to call directly + */ +#undef vx_inb +#define vx_inb(chip,reg) vx2_inb((vx_core_t*)(chip), VX_##reg) +#undef vx_outb +#define vx_outb(chip,reg,val) vx2_outb((vx_core_t*)(chip), VX_##reg, val) +#undef vx_inl +#define vx_inl(chip,reg) vx2_inl((vx_core_t*)(chip), VX_##reg) +#undef vx_outl +#define vx_outl(chip,reg,val) vx2_outl((vx_core_t*)(chip), VX_##reg, val) + + +/* + * vx_reset_dsp - reset the DSP + */ + +#define XX_DSP_RESET_WAIT_TIME 2 /* ms */ + +static void vx2_reset_dsp(vx_core_t *_chip) +{ + struct snd_vx222 *chip = (struct snd_vx222 *)_chip; + + /* set the reset dsp bit to 0 */ + vx_outl(chip, CDSP, chip->regCDSP & ~VX_CDSP_DSP_RESET_MASK); + + snd_vx_delay(_chip, XX_DSP_RESET_WAIT_TIME); + + chip->regCDSP |= VX_CDSP_DSP_RESET_MASK; + /* set the reset dsp bit to 1 */ + vx_outl(chip, CDSP, chip->regCDSP); +} + + +static int vx2_test_xilinx(vx_core_t *_chip) +{ + struct snd_vx222 *chip = (struct snd_vx222 *)_chip; + unsigned int data; + + snd_printdd("testing xilinx...\n"); + /* This test uses several write/read sequences on TEST0 and TEST1 bits + * to figure out whever or not the xilinx was correctly loaded + */ + + /* We write 1 on CDSP.TEST0. We should get 0 on STATUS.TEST0. */ + vx_outl(chip, CDSP, chip->regCDSP | VX_CDSP_TEST0_MASK); + vx_inl(chip, ISR); + data = vx_inl(chip, STATUS); + if ((data & VX_STATUS_VAL_TEST0_MASK) == VX_STATUS_VAL_TEST0_MASK) { + snd_printdd("bad!\n"); + return -ENODEV; + } + + /* We write 0 on CDSP.TEST0. We should get 1 on STATUS.TEST0. */ + vx_outl(chip, CDSP, chip->regCDSP & ~VX_CDSP_TEST0_MASK); + vx_inl(chip, ISR); + data = vx_inl(chip, STATUS); + if (! (data & VX_STATUS_VAL_TEST0_MASK)) { + snd_printdd("bad! #2\n"); + return -ENODEV; + } + + if (_chip->type == VX_TYPE_BOARD) { + /* not implemented on VX_2_BOARDS */ + /* We write 1 on CDSP.TEST1. We should get 0 on STATUS.TEST1. */ + vx_outl(chip, CDSP, chip->regCDSP | VX_CDSP_TEST1_MASK); + vx_inl(chip, ISR); + data = vx_inl(chip, STATUS); + if ((data & VX_STATUS_VAL_TEST1_MASK) == VX_STATUS_VAL_TEST1_MASK) { + snd_printdd("bad! #3\n"); + return -ENODEV; + } + + /* We write 0 on CDSP.TEST1. We should get 1 on STATUS.TEST1. */ + vx_outl(chip, CDSP, chip->regCDSP & ~VX_CDSP_TEST1_MASK); + vx_inl(chip, ISR); + data = vx_inl(chip, STATUS); + if (! (data & VX_STATUS_VAL_TEST1_MASK)) { + snd_printdd("bad! #4\n"); + return -ENODEV; + } + } + snd_printdd("ok, xilinx fine.\n"); + return 0; +} + + +/** + * vx_setup_pseudo_dma - set up the pseudo dma read/write mode. + * @do_write: 0 = read, 1 = set up for DMA write + */ +static void vx2_setup_pseudo_dma(vx_core_t *chip, int do_write) +{ + /* Interrupt mode and HREQ pin enabled for host transmit data transfers + * (in case of the use of the pseudo-dma facility). + */ + vx_outl(chip, ICR, do_write ? ICR_TREQ : ICR_RREQ); + + /* Reset the pseudo-dma register (in case of the use of the + * pseudo-dma facility). + */ + vx_outl(chip, RESET_DMA, 0); +} + +/* + * vx_release_pseudo_dma - disable the pseudo-DMA mode + */ +inline static void vx2_release_pseudo_dma(vx_core_t *chip) +{ + /* HREQ pin disabled. */ + vx_outl(chip, ICR, 0); +} + + + +/* pseudo-dma write */ +static void vx2_dma_write(vx_core_t *chip, snd_pcm_runtime_t *runtime, + vx_pipe_t *pipe, int count) +{ + unsigned long port = vx2_reg_addr(chip, VX_DMA); + int offset = pipe->hw_ptr; + u32 *addr = (u32 *)(runtime->dma_area + offset); + + snd_assert(count % 4 == 0, return); + + vx2_setup_pseudo_dma(chip, 1); + + /* Transfer using pseudo-dma. + */ + if (offset + count > pipe->buffer_bytes) { + int length = pipe->buffer_bytes - offset; + count -= length; + length >>= 2; /* in 32bit words */ + /* Transfer using pseudo-dma. */ + while (length-- > 0) { + outl(cpu_to_le32(*addr), port); + addr++; + } + addr = (u32 *)runtime->dma_area; + pipe->hw_ptr = 0; + } + pipe->hw_ptr += count; + count >>= 2; /* in 32bit words */ + /* Transfer using pseudo-dma. */ + while (count-- > 0) { + outl(cpu_to_le32(*addr), port); + addr++; + } + + vx2_release_pseudo_dma(chip); +} + + +/* pseudo dma read */ +static void vx2_dma_read(vx_core_t *chip, snd_pcm_runtime_t *runtime, + vx_pipe_t *pipe, int count) +{ + int offset = pipe->hw_ptr; + u32 *addr = (u32 *)(runtime->dma_area + offset); + unsigned long port = vx2_reg_addr(chip, VX_DMA); + + snd_assert(count % 4 == 0, return); + + vx2_setup_pseudo_dma(chip, 0); + /* Transfer using pseudo-dma. + */ + if (offset + count > pipe->buffer_bytes) { + int length = pipe->buffer_bytes - offset; + count -= length; + length >>= 2; /* in 32bit words */ + /* Transfer using pseudo-dma. */ + while (length-- > 0) + *addr++ = le32_to_cpu(inl(port)); + addr = (u32 *)runtime->dma_area; + pipe->hw_ptr = 0; + } + pipe->hw_ptr += count; + count >>= 2; /* in 32bit words */ + /* Transfer using pseudo-dma. */ + while (count-- > 0) + *addr++ = le32_to_cpu(inl(port)); + + vx2_release_pseudo_dma(chip); +} + +#define VX_XILINX_RESET_MASK 0x40000000 +#define VX_USERBIT0_MASK 0x00000004 +#define VX_USERBIT1_MASK 0x00000020 +#define VX_CNTRL_REGISTER_VALUE 0x00172012 + +/* + * transfer counts bits to PLX + */ +static int put_xilinx_data(vx_core_t *chip, unsigned int port, unsigned int counts, unsigned char data) +{ + unsigned int i; + + for (i = 0; i < counts; i++) { + unsigned int val; + + /* set the clock bit to 0. */ + val = VX_CNTRL_REGISTER_VALUE & ~VX_USERBIT0_MASK; + vx2_outl(chip, port, val); + vx2_inl(chip, port); + udelay(1); + + if (data & (1 << i)) + val |= VX_USERBIT1_MASK; + else + val &= ~VX_USERBIT1_MASK; + vx2_outl(chip, port, val); + vx2_inl(chip, port); + + /* set the clock bit to 1. */ + val |= VX_USERBIT0_MASK; + vx2_outl(chip, port, val); + vx2_inl(chip, port); + udelay(1); + } + return 0; +} + +/* + * load the xilinx image + */ +static int vx2_load_xilinx_binary(vx_core_t *chip, const struct firmware *xilinx) +{ + unsigned int i; + unsigned int port; + unsigned char *image; + + /* XILINX reset (wait at least 1 milisecond between reset on and off). */ + vx_outl(chip, CNTRL, VX_CNTRL_REGISTER_VALUE | VX_XILINX_RESET_MASK); + vx_inl(chip, CNTRL); + snd_vx_delay(chip, 10); + vx_outl(chip, CNTRL, VX_CNTRL_REGISTER_VALUE); + vx_inl(chip, CNTRL); + snd_vx_delay(chip, 10); + + if (chip->type == VX_TYPE_BOARD) + port = VX_CNTRL; + else + port = VX_GPIOC; /* VX222 V2 and VX222_MIC_BOARD with new PLX9030 use this register */ + + image = xilinx->data; + for (i = 0; i < xilinx->size; i++, image++) { + if (put_xilinx_data(chip, port, 8, *image) < 0) + return -EINVAL; + /* don't take too much time in this loop... */ + cond_resched(); + } + put_xilinx_data(chip, port, 4, 0xff); /* end signature */ + + snd_vx_delay(chip, 200); + + /* test after loading (is buggy with VX222) */ + if (chip->type != VX_TYPE_BOARD) { + /* Test if load successful: test bit 8 of register GPIOC (VX222: use CNTRL) ! */ + i = vx_inl(chip, GPIOC); + if (i & 0x0100) + return 0; + snd_printk(KERN_ERR "vx222: xilinx test failed after load, GPIOC=0x%x\n", i); + return -EINVAL; + } + + return 0; +} + + +/* + * load the boot/dsp images + */ +static int vx2_load_dsp(vx_core_t *vx, int index, const struct firmware *dsp) +{ + int err; + + switch (index) { + case 1: + /* xilinx image */ + if ((err = vx2_load_xilinx_binary(vx, dsp)) < 0) + return err; + if ((err = vx2_test_xilinx(vx)) < 0) + return err; + return 0; + case 2: + /* DSP boot */ + return snd_vx_dsp_boot(vx, dsp); + case 3: + /* DSP image */ + return snd_vx_dsp_load(vx, dsp); + default: + snd_BUG(); + return -EINVAL; + } +} + + +/* + * vx_test_and_ack - test and acknowledge interrupt + * + * called from irq hander, too + * + * spinlock held! + */ +static int vx2_test_and_ack(vx_core_t *chip) +{ + /* not booted yet? */ + if (! (chip->chip_status & VX_STAT_XILINX_LOADED)) + return -ENXIO; + + if (! (vx_inl(chip, STATUS) & VX_STATUS_MEMIRQ_MASK)) + return -EIO; + + /* ok, interrupts generated, now ack it */ + /* set ACQUIT bit up and down */ + vx_outl(chip, STATUS, 0); + /* useless read just to spend some time and maintain + * the ACQUIT signal up for a while ( a bus cycle ) + */ + vx_inl(chip, STATUS); + /* ack */ + vx_outl(chip, STATUS, VX_STATUS_MEMIRQ_MASK); + /* useless read just to spend some time and maintain + * the ACQUIT signal up for a while ( a bus cycle ) */ + vx_inl(chip, STATUS); + /* clear */ + vx_outl(chip, STATUS, 0); + + return 0; +} + + +/* + * vx_validate_irq - enable/disable IRQ + */ +static void vx2_validate_irq(vx_core_t *_chip, int enable) +{ + struct snd_vx222 *chip = (struct snd_vx222 *)_chip; + + /* Set the interrupt enable bit to 1 in CDSP register */ + if (enable) { + /* Set the PCI interrupt enable bit to 1.*/ + vx_outl(chip, INTCSR, VX_INTCSR_VALUE|VX_PCI_INTERRUPT_MASK); + chip->regCDSP |= VX_CDSP_VALID_IRQ_MASK; + } else { + /* Set the PCI interrupt enable bit to 0. */ + vx_outl(chip, INTCSR, VX_INTCSR_VALUE&~VX_PCI_INTERRUPT_MASK); + chip->regCDSP &= ~VX_CDSP_VALID_IRQ_MASK; + } + vx_outl(chip, CDSP, chip->regCDSP); +} + + +/* + * write an AKM codec data (24bit) + */ +static void vx2_write_codec_reg(vx_core_t *chip, unsigned int data) +{ + unsigned int i; + + vx_inl(chip, HIFREQ); + + /* We have to send 24 bits (3 x 8 bits). Start with most signif. Bit */ + for (i = 0; i < 24; i++, data <<= 1) + vx_outl(chip, DATA, ((data & 0x800000) ? VX_DATA_CODEC_MASK : 0)); + /* Terminate access to codec registers */ + vx_inl(chip, RUER); +} + + +#define AKM_CODEC_POWER_CONTROL_CMD 0xA007 +#define AKM_CODEC_RESET_ON_CMD 0xA100 +#define AKM_CODEC_RESET_OFF_CMD 0xA103 +#define AKM_CODEC_CLOCK_FORMAT_CMD 0xA240 +#define AKM_CODEC_MUTE_CMD 0xA38D +#define AKM_CODEC_UNMUTE_CMD 0xA30D +#define AKM_CODEC_LEFT_LEVEL_CMD 0xA400 +#define AKM_CODEC_RIGHT_LEVEL_CMD 0xA500 + +static const u8 vx2_akm_gains_lut[VX2_AKM_LEVEL_MAX+1] = { + 0x7f, // [000] = +0.000 dB -> AKM(0x7f) = +0.000 dB error(+0.000 dB) + 0x7d, // [001] = -0.500 dB -> AKM(0x7d) = -0.572 dB error(-0.072 dB) + 0x7c, // [002] = -1.000 dB -> AKM(0x7c) = -0.873 dB error(+0.127 dB) + 0x7a, // [003] = -1.500 dB -> AKM(0x7a) = -1.508 dB error(-0.008 dB) + 0x79, // [004] = -2.000 dB -> AKM(0x79) = -1.844 dB error(+0.156 dB) + 0x77, // [005] = -2.500 dB -> AKM(0x77) = -2.557 dB error(-0.057 dB) + 0x76, // [006] = -3.000 dB -> AKM(0x76) = -2.937 dB error(+0.063 dB) + 0x75, // [007] = -3.500 dB -> AKM(0x75) = -3.334 dB error(+0.166 dB) + 0x73, // [008] = -4.000 dB -> AKM(0x73) = -4.188 dB error(-0.188 dB) + 0x72, // [009] = -4.500 dB -> AKM(0x72) = -4.648 dB error(-0.148 dB) + 0x71, // [010] = -5.000 dB -> AKM(0x71) = -5.134 dB error(-0.134 dB) + 0x70, // [011] = -5.500 dB -> AKM(0x70) = -5.649 dB error(-0.149 dB) + 0x6f, // [012] = -6.000 dB -> AKM(0x6f) = -6.056 dB error(-0.056 dB) + 0x6d, // [013] = -6.500 dB -> AKM(0x6d) = -6.631 dB error(-0.131 dB) + 0x6c, // [014] = -7.000 dB -> AKM(0x6c) = -6.933 dB error(+0.067 dB) + 0x6a, // [015] = -7.500 dB -> AKM(0x6a) = -7.571 dB error(-0.071 dB) + 0x69, // [016] = -8.000 dB -> AKM(0x69) = -7.909 dB error(+0.091 dB) + 0x67, // [017] = -8.500 dB -> AKM(0x67) = -8.626 dB error(-0.126 dB) + 0x66, // [018] = -9.000 dB -> AKM(0x66) = -9.008 dB error(-0.008 dB) + 0x65, // [019] = -9.500 dB -> AKM(0x65) = -9.407 dB error(+0.093 dB) + 0x64, // [020] = -10.000 dB -> AKM(0x64) = -9.826 dB error(+0.174 dB) + 0x62, // [021] = -10.500 dB -> AKM(0x62) = -10.730 dB error(-0.230 dB) + 0x61, // [022] = -11.000 dB -> AKM(0x61) = -11.219 dB error(-0.219 dB) + 0x60, // [023] = -11.500 dB -> AKM(0x60) = -11.738 dB error(-0.238 dB) + 0x5f, // [024] = -12.000 dB -> AKM(0x5f) = -12.149 dB error(-0.149 dB) + 0x5e, // [025] = -12.500 dB -> AKM(0x5e) = -12.434 dB error(+0.066 dB) + 0x5c, // [026] = -13.000 dB -> AKM(0x5c) = -13.033 dB error(-0.033 dB) + 0x5b, // [027] = -13.500 dB -> AKM(0x5b) = -13.350 dB error(+0.150 dB) + 0x59, // [028] = -14.000 dB -> AKM(0x59) = -14.018 dB error(-0.018 dB) + 0x58, // [029] = -14.500 dB -> AKM(0x58) = -14.373 dB error(+0.127 dB) + 0x56, // [030] = -15.000 dB -> AKM(0x56) = -15.130 dB error(-0.130 dB) + 0x55, // [031] = -15.500 dB -> AKM(0x55) = -15.534 dB error(-0.034 dB) + 0x54, // [032] = -16.000 dB -> AKM(0x54) = -15.958 dB error(+0.042 dB) + 0x53, // [033] = -16.500 dB -> AKM(0x53) = -16.404 dB error(+0.096 dB) + 0x52, // [034] = -17.000 dB -> AKM(0x52) = -16.874 dB error(+0.126 dB) + 0x51, // [035] = -17.500 dB -> AKM(0x51) = -17.371 dB error(+0.129 dB) + 0x50, // [036] = -18.000 dB -> AKM(0x50) = -17.898 dB error(+0.102 dB) + 0x4e, // [037] = -18.500 dB -> AKM(0x4e) = -18.605 dB error(-0.105 dB) + 0x4d, // [038] = -19.000 dB -> AKM(0x4d) = -18.905 dB error(+0.095 dB) + 0x4b, // [039] = -19.500 dB -> AKM(0x4b) = -19.538 dB error(-0.038 dB) + 0x4a, // [040] = -20.000 dB -> AKM(0x4a) = -19.872 dB error(+0.128 dB) + 0x48, // [041] = -20.500 dB -> AKM(0x48) = -20.583 dB error(-0.083 dB) + 0x47, // [042] = -21.000 dB -> AKM(0x47) = -20.961 dB error(+0.039 dB) + 0x46, // [043] = -21.500 dB -> AKM(0x46) = -21.356 dB error(+0.144 dB) + 0x44, // [044] = -22.000 dB -> AKM(0x44) = -22.206 dB error(-0.206 dB) + 0x43, // [045] = -22.500 dB -> AKM(0x43) = -22.664 dB error(-0.164 dB) + 0x42, // [046] = -23.000 dB -> AKM(0x42) = -23.147 dB error(-0.147 dB) + 0x41, // [047] = -23.500 dB -> AKM(0x41) = -23.659 dB error(-0.159 dB) + 0x40, // [048] = -24.000 dB -> AKM(0x40) = -24.203 dB error(-0.203 dB) + 0x3f, // [049] = -24.500 dB -> AKM(0x3f) = -24.635 dB error(-0.135 dB) + 0x3e, // [050] = -25.000 dB -> AKM(0x3e) = -24.935 dB error(+0.065 dB) + 0x3c, // [051] = -25.500 dB -> AKM(0x3c) = -25.569 dB error(-0.069 dB) + 0x3b, // [052] = -26.000 dB -> AKM(0x3b) = -25.904 dB error(+0.096 dB) + 0x39, // [053] = -26.500 dB -> AKM(0x39) = -26.615 dB error(-0.115 dB) + 0x38, // [054] = -27.000 dB -> AKM(0x38) = -26.994 dB error(+0.006 dB) + 0x37, // [055] = -27.500 dB -> AKM(0x37) = -27.390 dB error(+0.110 dB) + 0x36, // [056] = -28.000 dB -> AKM(0x36) = -27.804 dB error(+0.196 dB) + 0x34, // [057] = -28.500 dB -> AKM(0x34) = -28.699 dB error(-0.199 dB) + 0x33, // [058] = -29.000 dB -> AKM(0x33) = -29.183 dB error(-0.183 dB) + 0x32, // [059] = -29.500 dB -> AKM(0x32) = -29.696 dB error(-0.196 dB) + 0x31, // [060] = -30.000 dB -> AKM(0x31) = -30.241 dB error(-0.241 dB) + 0x31, // [061] = -30.500 dB -> AKM(0x31) = -30.241 dB error(+0.259 dB) + 0x30, // [062] = -31.000 dB -> AKM(0x30) = -30.823 dB error(+0.177 dB) + 0x2e, // [063] = -31.500 dB -> AKM(0x2e) = -31.610 dB error(-0.110 dB) + 0x2d, // [064] = -32.000 dB -> AKM(0x2d) = -31.945 dB error(+0.055 dB) + 0x2b, // [065] = -32.500 dB -> AKM(0x2b) = -32.659 dB error(-0.159 dB) + 0x2a, // [066] = -33.000 dB -> AKM(0x2a) = -33.038 dB error(-0.038 dB) + 0x29, // [067] = -33.500 dB -> AKM(0x29) = -33.435 dB error(+0.065 dB) + 0x28, // [068] = -34.000 dB -> AKM(0x28) = -33.852 dB error(+0.148 dB) + 0x27, // [069] = -34.500 dB -> AKM(0x27) = -34.289 dB error(+0.211 dB) + 0x25, // [070] = -35.000 dB -> AKM(0x25) = -35.235 dB error(-0.235 dB) + 0x24, // [071] = -35.500 dB -> AKM(0x24) = -35.750 dB error(-0.250 dB) + 0x24, // [072] = -36.000 dB -> AKM(0x24) = -35.750 dB error(+0.250 dB) + 0x23, // [073] = -36.500 dB -> AKM(0x23) = -36.297 dB error(+0.203 dB) + 0x22, // [074] = -37.000 dB -> AKM(0x22) = -36.881 dB error(+0.119 dB) + 0x21, // [075] = -37.500 dB -> AKM(0x21) = -37.508 dB error(-0.008 dB) + 0x20, // [076] = -38.000 dB -> AKM(0x20) = -38.183 dB error(-0.183 dB) + 0x1f, // [077] = -38.500 dB -> AKM(0x1f) = -38.726 dB error(-0.226 dB) + 0x1e, // [078] = -39.000 dB -> AKM(0x1e) = -39.108 dB error(-0.108 dB) + 0x1d, // [079] = -39.500 dB -> AKM(0x1d) = -39.507 dB error(-0.007 dB) + 0x1c, // [080] = -40.000 dB -> AKM(0x1c) = -39.926 dB error(+0.074 dB) + 0x1b, // [081] = -40.500 dB -> AKM(0x1b) = -40.366 dB error(+0.134 dB) + 0x1a, // [082] = -41.000 dB -> AKM(0x1a) = -40.829 dB error(+0.171 dB) + 0x19, // [083] = -41.500 dB -> AKM(0x19) = -41.318 dB error(+0.182 dB) + 0x18, // [084] = -42.000 dB -> AKM(0x18) = -41.837 dB error(+0.163 dB) + 0x17, // [085] = -42.500 dB -> AKM(0x17) = -42.389 dB error(+0.111 dB) + 0x16, // [086] = -43.000 dB -> AKM(0x16) = -42.978 dB error(+0.022 dB) + 0x15, // [087] = -43.500 dB -> AKM(0x15) = -43.610 dB error(-0.110 dB) + 0x14, // [088] = -44.000 dB -> AKM(0x14) = -44.291 dB error(-0.291 dB) + 0x14, // [089] = -44.500 dB -> AKM(0x14) = -44.291 dB error(+0.209 dB) + 0x13, // [090] = -45.000 dB -> AKM(0x13) = -45.031 dB error(-0.031 dB) + 0x12, // [091] = -45.500 dB -> AKM(0x12) = -45.840 dB error(-0.340 dB) + 0x12, // [092] = -46.000 dB -> AKM(0x12) = -45.840 dB error(+0.160 dB) + 0x11, // [093] = -46.500 dB -> AKM(0x11) = -46.731 dB error(-0.231 dB) + 0x11, // [094] = -47.000 dB -> AKM(0x11) = -46.731 dB error(+0.269 dB) + 0x10, // [095] = -47.500 dB -> AKM(0x10) = -47.725 dB error(-0.225 dB) + 0x10, // [096] = -48.000 dB -> AKM(0x10) = -47.725 dB error(+0.275 dB) + 0x0f, // [097] = -48.500 dB -> AKM(0x0f) = -48.553 dB error(-0.053 dB) + 0x0e, // [098] = -49.000 dB -> AKM(0x0e) = -49.152 dB error(-0.152 dB) + 0x0d, // [099] = -49.500 dB -> AKM(0x0d) = -49.796 dB error(-0.296 dB) + 0x0d, // [100] = -50.000 dB -> AKM(0x0d) = -49.796 dB error(+0.204 dB) + 0x0c, // [101] = -50.500 dB -> AKM(0x0c) = -50.491 dB error(+0.009 dB) + 0x0b, // [102] = -51.000 dB -> AKM(0x0b) = -51.247 dB error(-0.247 dB) + 0x0b, // [103] = -51.500 dB -> AKM(0x0b) = -51.247 dB error(+0.253 dB) + 0x0a, // [104] = -52.000 dB -> AKM(0x0a) = -52.075 dB error(-0.075 dB) + 0x0a, // [105] = -52.500 dB -> AKM(0x0a) = -52.075 dB error(+0.425 dB) + 0x09, // [106] = -53.000 dB -> AKM(0x09) = -52.990 dB error(+0.010 dB) + 0x09, // [107] = -53.500 dB -> AKM(0x09) = -52.990 dB error(+0.510 dB) + 0x08, // [108] = -54.000 dB -> AKM(0x08) = -54.013 dB error(-0.013 dB) + 0x08, // [109] = -54.500 dB -> AKM(0x08) = -54.013 dB error(+0.487 dB) + 0x07, // [110] = -55.000 dB -> AKM(0x07) = -55.173 dB error(-0.173 dB) + 0x07, // [111] = -55.500 dB -> AKM(0x07) = -55.173 dB error(+0.327 dB) + 0x06, // [112] = -56.000 dB -> AKM(0x06) = -56.512 dB error(-0.512 dB) + 0x06, // [113] = -56.500 dB -> AKM(0x06) = -56.512 dB error(-0.012 dB) + 0x06, // [114] = -57.000 dB -> AKM(0x06) = -56.512 dB error(+0.488 dB) + 0x05, // [115] = -57.500 dB -> AKM(0x05) = -58.095 dB error(-0.595 dB) + 0x05, // [116] = -58.000 dB -> AKM(0x05) = -58.095 dB error(-0.095 dB) + 0x05, // [117] = -58.500 dB -> AKM(0x05) = -58.095 dB error(+0.405 dB) + 0x05, // [118] = -59.000 dB -> AKM(0x05) = -58.095 dB error(+0.905 dB) + 0x04, // [119] = -59.500 dB -> AKM(0x04) = -60.034 dB error(-0.534 dB) + 0x04, // [120] = -60.000 dB -> AKM(0x04) = -60.034 dB error(-0.034 dB) + 0x04, // [121] = -60.500 dB -> AKM(0x04) = -60.034 dB error(+0.466 dB) + 0x04, // [122] = -61.000 dB -> AKM(0x04) = -60.034 dB error(+0.966 dB) + 0x03, // [123] = -61.500 dB -> AKM(0x03) = -62.532 dB error(-1.032 dB) + 0x03, // [124] = -62.000 dB -> AKM(0x03) = -62.532 dB error(-0.532 dB) + 0x03, // [125] = -62.500 dB -> AKM(0x03) = -62.532 dB error(-0.032 dB) + 0x03, // [126] = -63.000 dB -> AKM(0x03) = -62.532 dB error(+0.468 dB) + 0x03, // [127] = -63.500 dB -> AKM(0x03) = -62.532 dB error(+0.968 dB) + 0x03, // [128] = -64.000 dB -> AKM(0x03) = -62.532 dB error(+1.468 dB) + 0x02, // [129] = -64.500 dB -> AKM(0x02) = -66.054 dB error(-1.554 dB) + 0x02, // [130] = -65.000 dB -> AKM(0x02) = -66.054 dB error(-1.054 dB) + 0x02, // [131] = -65.500 dB -> AKM(0x02) = -66.054 dB error(-0.554 dB) + 0x02, // [132] = -66.000 dB -> AKM(0x02) = -66.054 dB error(-0.054 dB) + 0x02, // [133] = -66.500 dB -> AKM(0x02) = -66.054 dB error(+0.446 dB) + 0x02, // [134] = -67.000 dB -> AKM(0x02) = -66.054 dB error(+0.946 dB) + 0x02, // [135] = -67.500 dB -> AKM(0x02) = -66.054 dB error(+1.446 dB) + 0x02, // [136] = -68.000 dB -> AKM(0x02) = -66.054 dB error(+1.946 dB) + 0x02, // [137] = -68.500 dB -> AKM(0x02) = -66.054 dB error(+2.446 dB) + 0x02, // [138] = -69.000 dB -> AKM(0x02) = -66.054 dB error(+2.946 dB) + 0x01, // [139] = -69.500 dB -> AKM(0x01) = -72.075 dB error(-2.575 dB) + 0x01, // [140] = -70.000 dB -> AKM(0x01) = -72.075 dB error(-2.075 dB) + 0x01, // [141] = -70.500 dB -> AKM(0x01) = -72.075 dB error(-1.575 dB) + 0x01, // [142] = -71.000 dB -> AKM(0x01) = -72.075 dB error(-1.075 dB) + 0x01, // [143] = -71.500 dB -> AKM(0x01) = -72.075 dB error(-0.575 dB) + 0x01, // [144] = -72.000 dB -> AKM(0x01) = -72.075 dB error(-0.075 dB) + 0x01, // [145] = -72.500 dB -> AKM(0x01) = -72.075 dB error(+0.425 dB) + 0x01, // [146] = -73.000 dB -> AKM(0x01) = -72.075 dB error(+0.925 dB) + 0x00}; // [147] = -73.500 dB -> AKM(0x00) = mute error(+infini) + +/* + * pseudo-codec write entry + */ +static void vx2_write_akm(vx_core_t *chip, int reg, unsigned int data) +{ + unsigned int val; + + if (reg == XX_CODEC_DAC_CONTROL_REGISTER) { + vx2_write_codec_reg(chip, data ? AKM_CODEC_MUTE_CMD : AKM_CODEC_UNMUTE_CMD); + return; + } + + /* `data' is a value between 0x0 and VX2_AKM_LEVEL_MAX = 0x093, in the case of the AKM codecs, we need + a look up table, as there is no linear matching between the driver codec values + and the real dBu value + */ + snd_assert(data < sizeof(vx2_akm_gains_lut), return); + + switch (reg) { + case XX_CODEC_LEVEL_LEFT_REGISTER: + val = AKM_CODEC_LEFT_LEVEL_CMD; + break; + case XX_CODEC_LEVEL_RIGHT_REGISTER: + val = AKM_CODEC_RIGHT_LEVEL_CMD; + break; + default: + snd_BUG(); + return; + } + val |= vx2_akm_gains_lut[data]; + + vx2_write_codec_reg(chip, val); +} + + +/* + * write codec bit for old VX222 board + */ +static void vx2_old_write_codec_bit(vx_core_t *chip, int codec, unsigned int data) +{ + int i; + + /* activate access to codec registers */ + vx_inl(chip, HIFREQ); + + for (i = 0; i < 24; i++, data <<= 1) + vx_outl(chip, DATA, ((data & 0x800000) ? VX_DATA_CODEC_MASK : 0)); + + /* Terminate access to codec registers */ + vx_inl(chip, RUER); +} + + +/* + * reset codec bit + */ +static void vx2_reset_codec(vx_core_t *_chip) +{ + struct snd_vx222 *chip = (struct snd_vx222 *)_chip; + + /* Set the reset CODEC bit to 0. */ + vx_outl(chip, CDSP, chip->regCDSP &~ VX_CDSP_CODEC_RESET_MASK); + vx_inl(chip, CDSP); + snd_vx_delay(_chip, 10); + /* Set the reset CODEC bit to 1. */ + chip->regCDSP |= VX_CDSP_CODEC_RESET_MASK; + vx_outl(chip, CDSP, chip->regCDSP); + vx_inl(chip, CDSP); + if (_chip->type == VX_TYPE_BOARD) { + snd_vx_delay(_chip, 1); + return; + } + + snd_vx_delay(_chip, 5); /* additionnel wait time for AKM's */ + + vx2_write_codec_reg(_chip, AKM_CODEC_POWER_CONTROL_CMD); /* DAC power up, ADC power up, Vref power down */ + + vx2_write_codec_reg(_chip, AKM_CODEC_CLOCK_FORMAT_CMD); /* default */ + vx2_write_codec_reg(_chip, AKM_CODEC_MUTE_CMD); /* Mute = ON ,Deemphasis = OFF */ + vx2_write_codec_reg(_chip, AKM_CODEC_RESET_OFF_CMD); /* DAC and ADC normal operation */ + + if (_chip->type == VX_TYPE_MIC) { + /* set up the micro input selector */ + chip->regSELMIC = MICRO_SELECT_INPUT_NORM | + MICRO_SELECT_PREAMPLI_G_0 | + MICRO_SELECT_NOISE_T_52DB; + + /* reset phantom power supply */ + chip->regSELMIC &= ~MICRO_SELECT_PHANTOM_ALIM; + + vx_outl(_chip, SELMIC, chip->regSELMIC); + } +} + + +/* + * change the audio source + */ +static void vx2_change_audio_source(vx_core_t *_chip, int src) +{ + struct snd_vx222 *chip = (struct snd_vx222 *)_chip; + + switch (src) { + case VX_AUDIO_SRC_DIGITAL: + chip->regCFG |= VX_CFG_DATAIN_SEL_MASK; + break; + default: + chip->regCFG &= ~VX_CFG_DATAIN_SEL_MASK; + break; + } + vx_outl(chip, CFG, chip->regCFG); +} + + +/* + * set the clock source + */ +static void vx2_set_clock_source(vx_core_t *_chip, int source) +{ + struct snd_vx222 *chip = (struct snd_vx222 *)_chip; + + if (source == INTERNAL_QUARTZ) + chip->regCFG &= ~VX_CFG_CLOCKIN_SEL_MASK; + else + chip->regCFG |= VX_CFG_CLOCKIN_SEL_MASK; + vx_outl(chip, CFG, chip->regCFG); +} + +/* + * reset the board + */ +static void vx2_reset_board(vx_core_t *_chip, int cold_reset) +{ + struct snd_vx222 *chip = (struct snd_vx222 *)_chip; + + /* initialize the register values */ + chip->regCDSP = VX_CDSP_CODEC_RESET_MASK | VX_CDSP_DSP_RESET_MASK ; + chip->regCFG = 0; +} + + + +/* + * input level controls for VX222 Mic + */ + +/* Micro level is specified to be adjustable from -96dB to 63 dB (board coded 0x00 ... 318), + * 318 = 210 + 36 + 36 + 36 (210 = +9dB variable) (3 * 36 = 3 steps of 18dB pre ampli) + * as we will mute if less than -110dB, so let's simply use line input coded levels and add constant offset ! + */ +#define V2_MICRO_LEVEL_RANGE (318 - 255) + +static void vx2_set_input_level(struct snd_vx222 *chip) +{ + int i, miclevel, preamp; + unsigned int data; + + miclevel = chip->mic_level; + miclevel += V2_MICRO_LEVEL_RANGE; /* add 318 - 0xff */ + preamp = 0; + while (miclevel > 210) { /* limitation to +9dB of 3310 real gain */ + preamp++; /* raise pre ampli + 18dB */ + miclevel -= (18 * 2); /* lower level 18 dB (*2 because of 0.5 dB steps !) */ + } + snd_assert(preamp < 4, return); + + /* set pre-amp level */ + chip->regSELMIC &= ~MICRO_SELECT_PREAMPLI_MASK; + chip->regSELMIC |= (preamp << MICRO_SELECT_PREAMPLI_OFFSET) & MICRO_SELECT_PREAMPLI_MASK; + vx_outl(chip, SELMIC, chip->regSELMIC); + + data = (unsigned int)miclevel << 16 | + (unsigned int)chip->input_level[1] << 8 | + (unsigned int)chip->input_level[0]; + vx_inl(chip, DATA); /* Activate input level programming */ + + /* We have to send 32 bits (4 x 8 bits) */ + for (i = 0; i < 32; i++, data <<= 1) + vx_outl(chip, DATA, ((data & 0x80000000) ? VX_DATA_CODEC_MASK : 0)); + + vx_inl(chip, RUER); /* Terminate input level programming */ +} + + +#define MIC_LEVEL_MAX 0xff + +/* + * controls API for input levels + */ + +/* input levels */ +static int vx_input_level_info(snd_kcontrol_t *kcontrol, snd_ctl_elem_info_t *uinfo) +{ + uinfo->type = SNDRV_CTL_ELEM_TYPE_INTEGER; + uinfo->count = 2; + uinfo->value.integer.min = 0; + uinfo->value.integer.max = MIC_LEVEL_MAX; + return 0; +} + +static int vx_input_level_get(snd_kcontrol_t *kcontrol, snd_ctl_elem_value_t *ucontrol) +{ + vx_core_t *_chip = snd_kcontrol_chip(kcontrol); + struct snd_vx222 *chip = (struct snd_vx222 *)_chip; + down(&_chip->mixer_mutex); + ucontrol->value.integer.value[0] = chip->input_level[0]; + ucontrol->value.integer.value[1] = chip->input_level[1]; + up(&_chip->mixer_mutex); + return 0; +} + +static int vx_input_level_put(snd_kcontrol_t *kcontrol, snd_ctl_elem_value_t *ucontrol) +{ + vx_core_t *_chip = snd_kcontrol_chip(kcontrol); + struct snd_vx222 *chip = (struct snd_vx222 *)_chip; + down(&_chip->mixer_mutex); + if (chip->input_level[0] != ucontrol->value.integer.value[0] || + chip->input_level[1] != ucontrol->value.integer.value[1]) { + chip->input_level[0] = ucontrol->value.integer.value[0]; + chip->input_level[1] = ucontrol->value.integer.value[1]; + vx2_set_input_level(chip); + up(&_chip->mixer_mutex); + return 1; + } + up(&_chip->mixer_mutex); + return 0; +} + +/* mic level */ +static int vx_mic_level_info(snd_kcontrol_t *kcontrol, snd_ctl_elem_info_t *uinfo) +{ + uinfo->type = SNDRV_CTL_ELEM_TYPE_INTEGER; + uinfo->count = 1; + uinfo->value.integer.min = 0; + uinfo->value.integer.max = MIC_LEVEL_MAX; + return 0; +} + +static int vx_mic_level_get(snd_kcontrol_t *kcontrol, snd_ctl_elem_value_t *ucontrol) +{ + vx_core_t *_chip = snd_kcontrol_chip(kcontrol); + struct snd_vx222 *chip = (struct snd_vx222 *)_chip; + ucontrol->value.integer.value[0] = chip->mic_level; + return 0; +} + +static int vx_mic_level_put(snd_kcontrol_t *kcontrol, snd_ctl_elem_value_t *ucontrol) +{ + vx_core_t *_chip = snd_kcontrol_chip(kcontrol); + struct snd_vx222 *chip = (struct snd_vx222 *)_chip; + down(&_chip->mixer_mutex); + if (chip->mic_level != ucontrol->value.integer.value[0]) { + chip->mic_level = ucontrol->value.integer.value[0]; + vx2_set_input_level(chip); + up(&_chip->mixer_mutex); + return 1; + } + up(&_chip->mixer_mutex); + return 0; +} + +static snd_kcontrol_new_t vx_control_input_level = { + .iface = SNDRV_CTL_ELEM_IFACE_MIXER, + .name = "Capture Volume", + .info = vx_input_level_info, + .get = vx_input_level_get, + .put = vx_input_level_put, +}; + +static snd_kcontrol_new_t vx_control_mic_level = { + .iface = SNDRV_CTL_ELEM_IFACE_MIXER, + .name = "Mic Capture Volume", + .info = vx_mic_level_info, + .get = vx_mic_level_get, + .put = vx_mic_level_put, +}; + +/* + * FIXME: compressor/limiter implementation is missing yet... + */ + +static int vx2_add_mic_controls(vx_core_t *_chip) +{ + struct snd_vx222 *chip = (struct snd_vx222 *)_chip; + int err; + + if (_chip->type != VX_TYPE_MIC) + return 0; + + /* mute input levels */ + chip->input_level[0] = chip->input_level[1] = 0; + chip->mic_level = 0; + vx2_set_input_level(chip); + + /* controls */ + if ((err = snd_ctl_add(_chip->card, snd_ctl_new1(&vx_control_input_level, chip))) < 0) + return err; + if ((err = snd_ctl_add(_chip->card, snd_ctl_new1(&vx_control_mic_level, chip))) < 0) + return err; + + return 0; +} + + +/* + * callbacks + */ +struct snd_vx_ops vx222_ops = { + .in8 = vx2_inb, + .in32 = vx2_inl, + .out8 = vx2_outb, + .out32 = vx2_outl, + .test_and_ack = vx2_test_and_ack, + .validate_irq = vx2_validate_irq, + .akm_write = vx2_write_akm, + .reset_codec = vx2_reset_codec, + .change_audio_source = vx2_change_audio_source, + .set_clock_source = vx2_set_clock_source, + .load_dsp = vx2_load_dsp, + .reset_dsp = vx2_reset_dsp, + .reset_board = vx2_reset_board, + .dma_write = vx2_dma_write, + .dma_read = vx2_dma_read, + .add_controls = vx2_add_mic_controls, +}; + +/* for old VX222 board */ +struct snd_vx_ops vx222_old_ops = { + .in8 = vx2_inb, + .in32 = vx2_inl, + .out8 = vx2_outb, + .out32 = vx2_outl, + .test_and_ack = vx2_test_and_ack, + .validate_irq = vx2_validate_irq, + .write_codec = vx2_old_write_codec_bit, + .reset_codec = vx2_reset_codec, + .change_audio_source = vx2_change_audio_source, + .set_clock_source = vx2_set_clock_source, + .load_dsp = vx2_load_dsp, + .reset_dsp = vx2_reset_dsp, + .reset_board = vx2_reset_board, + .dma_write = vx2_dma_write, + .dma_read = vx2_dma_read, +}; + |