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#undef FKS_TEST /* * tabs should be 4 spaces, in vi(m): set tabstop=4 * * TODO: consistency speed calculations!! * cleanup! * ????: Did I break MIDI support? * * History: * * Rolf Fokkens (Dec 20 1998): ES188x recording level support on a per * fokkensr@vertis.nl input basis. * (Dec 24 1998): Recognition of ES1788, ES1887, ES1888, * ES1868, ES1869 and ES1878. Could be used for * specific handling in the future. All except * ES1887 and ES1888 and ES688 are handled like * ES1688. * (Dec 27 1998): RECLEV for all (?) ES1688+ chips. ES188x now * have the "Dec 20" support + RECLEV * (Jan 2 1999): Preparation for Full Duplex. This means * Audio 2 is now used for playback when dma16 * is specified. The next step would be to use * Audio 1 and Audio 2 at the same time. * (Jan 9 1999): Put all ESS stuff into sb_ess.[ch], this * includes both the ESS stuff that has been in * sb_*[ch] before I touched it and the ESS support * I added later * (Jan 23 1999): Full Duplex seems to work. I wrote a small * test proggy which works OK. Haven't found * any applications to test it though. So why did * I bother to create it anyway?? :) Just for * fun. * (May 2 1999): I tried to be too smart by "introducing" * ess_calc_best_speed (). The idea was that two * dividers could be used to setup a samplerate, * ess_calc_best_speed () would choose the best. * This works for playback, but results in * recording problems for high samplerates. I * fixed this by removing ess_calc_best_speed () * and just doing what the documentation says. * Andy Sloane (Jun 4 1999): Stole some code from ALSA to fix the playback * andy@guildsoftware.com speed on ES1869, ES1879, ES1887, and ES1888. * 1879's were previously ignored by this driver; * added (untested) support for those. * Cvetan Ivanov (Oct 27 1999): Fixed ess_dsp_init to call ess_set_dma_hw for * zezo@inet.bg _ALL_ ESS models, not only ES1887 * * This files contains ESS chip specifics. It's based on the existing ESS * handling as it resided in sb_common.c, sb_mixer.c and sb_audio.c. This * file adds features like: * - Chip Identification (as shown in /proc/sound) * - RECLEV support for ES1688 and later * - 6 bits playback level support chips later than ES1688 * - Recording level support on a per-device basis for ES1887 * - Full-Duplex for ES1887 * * Full duplex is enabled by specifying dma16. While the normal dma must * be one of 0, 1 or 3, dma16 can be one of 0, 1, 3 or 5. DMA 5 is a 16 bit * DMA channel, while the others are 8 bit.. * * ESS detection isn't full proof (yet). If it fails an additional module * parameter esstype can be specified to be one of the following: * -1, 0, 688, 1688, 1868, 1869, 1788, 1887, 1888 * -1 means: mimic 2.0 behaviour, * 0 means: auto detect. * others: explicitly specify chip * -1 is default, cause auto detect still doesn't work. */ /* * About the documentation * * I don't know if the chips all are OK, but the documentation is buggy. 'cause * I don't have all the cips myself, there's a lot I cannot verify. I'll try to * keep track of my latest insights about his here. If you have additional info, * please enlighten me (fokkensr@vertis.nl)! * * I had the impression that ES1688 also has 6 bit master volume control. The * documentation about ES1888 (rev C, october '95) claims that ES1888 has * the following features ES1688 doesn't have: * - 6 bit master volume * - Full Duplex * So ES1688 apparently doesn't have 6 bit master volume control, but the * ES1688 does have RECLEV control. Makes me wonder: does ES688 have it too? * Without RECLEV ES688 won't be much fun I guess. * * From the ES1888 (rev C, october '95) documentation I got the impression * that registers 0x68 to 0x6e don't exist which means: no recording volume * controls. To my surprise the ES888 documentation (1/14/96) claims that * ES888 does have these record mixer registers, but that ES1888 doesn't have * 0x69 and 0x6b. So the rest should be there. * * I'm trying to get ES1887 Full Duplex. Audio 2 is playback only, while Audio 2 * is both record and playback. I think I should use Audio 2 for all playback. * * The documentation is an adventure: it's close but not fully accurate. I * found out that after a reset some registers are *NOT* reset, though the * docs say the would be. Interresting ones are 0x7f, 0x7d and 0x7a. They are * related to the Audio 2 channel. I also was suprised about the consequenses * of writing 0x00 to 0x7f (which should be done by reset): The ES1887 moves * into ES1888 mode. This means that it claims IRQ 11, which happens to be my * ISDN adapter. Needless to say it no longer worked. I now understand why * after rebooting 0x7f already was 0x05, the value of my choice: the BIOS * did it. * * Oh, and this is another trap: in ES1887 docs mixer register 0x70 is decribed * as if it's exactly the same as register 0xa1. This is *NOT* true. The * description of 0x70 in ES1869 docs is accurate however. * Well, the assumption about ES1869 was wrong: register 0x70 is very much * like register 0xa1, except that bit 7 is allways 1, whatever you want * it to be. * * When using audio 2 mixer register 0x72 seems te be meaningless. Only 0xa2 * has effect. * * Software reset not being able to reset all registers is great! Especially * the fact that register 0x78 isn't reset is great when you wanna change back * to single dma operation (simplex): audio 2 is still operation, and uses the * same dma as audio 1: your ess changes into a funny echo machine. * * Received the new that ES1688 is detected as a ES1788. Did some thinking: * the ES1887 detection scheme suggests in step 2 to try if bit 3 of register * 0x64 can be changed. This is inaccurate, first I inverted the * check: "If * can be modified, it's a 1688", which lead to a correct detection * of my ES1887. It resulted however in bad detection of 1688 (reported by mail) * and 1868 (if no PnP detection first): they result in a 1788 being detected. * I don't have docs on 1688, but I do have docs on 1868: The documentation is * probably inaccurate in the fact that I should check bit 2, not bit 3. This * is what I do now. */ /* * About recognition of ESS chips * * The distinction of ES688, ES1688, ES1788, ES1887 and ES1888 is described in * a (preliminary ??) datasheet on ES1887. It's aim is to identify ES1887, but * during detection the text claims that "this chip may be ..." when a step * fails. This scheme is used to distinct between the above chips. * It appears however that some PnP chips like ES1868 are recognized as ES1788 * by the ES1887 detection scheme. These PnP chips can be detected in another * way however: ES1868, ES1869 and ES1878 can be recognized (full proof I think) * by repeatedly reading mixer register 0x40. This is done by ess_identify in * sb_common.c. * This results in the following detection steps: * - distinct between ES688 and ES1688+ (as always done in this driver) * if ES688 we're ready * - try to detect ES1868, ES1869 or ES1878 * if successful we're ready * - try to detect ES1888, ES1887 or ES1788 * if successful we're ready * - Dunno. Must be 1688. Will do in general * * About RECLEV support: * * The existing ES1688 support didn't take care of the ES1688+ recording * levels very well. Whenever a device was selected (recmask) for recording * it's recording level was loud, and it couldn't be changed. The fact that * internal register 0xb4 could take care of RECLEV, didn't work meaning until * it's value was restored every time the chip was reset; this reset the * value of 0xb4 too. I guess that's what 4front also had (have?) trouble with. * * About ES1887 support: * * The ES1887 has separate registers to control the recording levels, for all * inputs. The ES1887 specific software makes these levels the same as their * corresponding playback levels, unless recmask says they aren't recorded. In * the latter case the recording volumes are 0. * Now recording levels of inputs can be controlled, by changing the playback * levels. Futhermore several devices can be recorded together (which is not * possible with the ES1688. * Besides the separate recording level control for each input, the common * recordig level can also be controlled by RECLEV as described above. * * Not only ES1887 have this recording mixer. I know the following from the * documentation: * ES688 no * ES1688 no * ES1868 no * ES1869 yes * ES1878 no * ES1879 yes * ES1888 no/yes Contradicting documentation; most recent: yes * ES1946 yes This is a PCI chip; not handled by this driver */ #include <linux/delay.h> #include <linux/spinlock.h> #include "sound_config.h" #include "sb_mixer.h" #include "sb.h" #include "sb_ess.h" #define ESSTYPE_LIKE20 -1 /* Mimic 2.0 behaviour */ #define ESSTYPE_DETECT 0 /* Mimic 2.0 behaviour */ #define SUBMDL_ES1788 0x10 /* Subtype ES1788 for specific handling */ #define SUBMDL_ES1868 0x11 /* Subtype ES1868 for specific handling */ #define SUBMDL_ES1869 0x12 /* Subtype ES1869 for specific handling */ #define SUBMDL_ES1878 0x13 /* Subtype ES1878 for specific handling */ #define SUBMDL_ES1879 0x16 /* ES1879 was initially forgotten */ #define SUBMDL_ES1887 0x14 /* Subtype ES1887 for specific handling */ #define SUBMDL_ES1888 0x15 /* Subtype ES1888 for specific handling */ #define SB_CAP_ES18XX_RATE 0x100 #define ES1688_CLOCK1 795444 /* 128 - div */ #define ES1688_CLOCK2 397722 /* 256 - div */ #define ES18XX_CLOCK1 793800 /* 128 - div */ #define ES18XX_CLOCK2 768000 /* 256 - div */ #ifdef FKS_LOGGING static void ess_show_mixerregs (sb_devc *devc); #endif static int ess_read (sb_devc * devc, unsigned char reg); static int ess_write (sb_devc * devc, unsigned char reg, unsigned char data); static void ess_chgmixer (sb_devc * devc, unsigned int reg, unsigned int mask, unsigned int val); /**************************************************************************** * * * ESS audio * * * ****************************************************************************/ struct ess_command {short cmd; short data;}; /* * Commands for initializing Audio 1 for input (record) */ static struct ess_command ess_i08m[] = /* input 8 bit mono */ { {0xb7, 0x51}, {0xb7, 0xd0}, {-1, 0} }; static struct ess_command ess_i16m[] = /* input 16 bit mono */ { {0xb7, 0x71}, {0xb7, 0xf4}, {-1, 0} }; static struct ess_command ess_i08s[] = /* input 8 bit stereo */ { {0xb7, 0x51}, {0xb7, 0x98}, {-1, 0} }; static struct ess_command ess_i16s[] = /* input 16 bit stereo */ { {0xb7, 0x71}, {0xb7, 0xbc}, {-1, 0} }; static struct ess_command *ess_inp_cmds[] = { ess_i08m, ess_i16m, ess_i08s, ess_i16s }; /* * Commands for initializing Audio 1 for output (playback) */ static struct ess_command ess_o08m[] = /* output 8 bit mono */ { {0xb6, 0x80}, {0xb7, 0x51}, {0xb7, 0xd0}, {-1, 0} }; static struct ess_command ess_o16m[] = /* output 16 bit mono */ { {0xb6, 0x00}, {0xb7, 0x71}, {0xb7, 0xf4}, {-1, 0} }; static struct ess_command ess_o08s[] = /* output 8 bit stereo */ { {0xb6, 0x80}, {0xb7, 0x51}, {0xb7, 0x98}, {-1, 0} }; static struct ess_command ess_o16s[] = /* output 16 bit stereo */ { {0xb6, 0x00}, {0xb7, 0x71}, {0xb7, 0xbc}, {-1, 0} }; static struct ess_command *ess_out_cmds[] = { ess_o08m, ess_o16m, ess_o08s, ess_o16s }; static void ess_exec_commands (sb_devc *devc, struct ess_command *cmdtab[]) { struct ess_command *cmd; cmd = cmdtab [ ((devc->channels != 1) << 1) + (devc->bits != AFMT_U8) ]; while (cmd->cmd != -1) { ess_write (devc, cmd->cmd, cmd->data); cmd++; } } static void ess_change (sb_devc *devc, unsigned int reg, unsigned int mask, unsigned int val) { int value; value = ess_read (devc, reg); value = (value & ~mask) | (val & mask); ess_write (devc, reg, value); } static void ess_set_output_parms (int dev, unsigned long buf, int nr_bytes, int intrflag) { sb_devc *devc = audio_devs[dev]->devc; if (devc->duplex) { devc->trg_buf_16 = buf; devc->trg_bytes_16 = nr_bytes; devc->trg_intrflag_16 = intrflag; devc->irq_mode_16 = IMODE_OUTPUT; } else { devc->trg_buf = buf; devc->trg_bytes = nr_bytes; devc->trg_intrflag = intrflag; devc->irq_mode = IMODE_OUTPUT; } } static void ess_set_input_parms (int dev, unsigned long buf, int count, int intrflag) { sb_devc *devc = audio_devs[dev]->devc; devc->trg_buf = buf; devc->trg_bytes = count; devc->trg_intrflag = intrflag; devc->irq_mode = IMODE_INPUT; } static int ess_calc_div (int clock, int revert, int *speedp, int *diffp) { int divider; int speed, diff; int retval; speed = *speedp; divider = (clock + speed / 2) / speed; retval = revert - divider; if (retval > revert - 1) { retval = revert - 1; divider = revert - retval; } /* This line is suggested. Must be wrong I think *speedp = (clock + divider / 2) / divider; So I chose the next one */ *speedp = clock / divider; diff = speed - *speedp; if (diff < 0) diff =-diff; *diffp = diff; return retval; } static int ess_calc_best_speed (int clock1, int rev1, int clock2, int rev2, int *divp, int *speedp) { int speed1 = *speedp, speed2 = *speedp; int div1, div2; int diff1, diff2; int retval; div1 = ess_calc_div (clock1, rev1, &speed1, &diff1); div2 = ess_calc_div (clock2, rev2, &speed2, &diff2); if (diff1 < diff2) { *divp = div1; *speedp = speed1; retval = 1; } else { *divp = div2; *speedp = speed2; retval = 2; } return retval; } /* * Depending on the audiochannel ESS devices can * have different clock settings. These are made consistent for duplex * however. * callers of ess_speed only do an audionum suggestion, which means * input suggests 1, output suggests 2. This suggestion is only true * however when doing duplex. */ static void ess_common_speed (sb_devc *devc, int *speedp, int *divp) { int diff = 0, div; if (devc->duplex) { /* * The 0x80 is important for the first audio channel */ div = 0x80 | ess_calc_div (795500, 128, speedp, &diff); } else if(devc->caps & SB_CAP_ES18XX_RATE) { ess_calc_best_speed(ES18XX_CLOCK1, 128, ES18XX_CLOCK2, 256, &div, speedp); } else { if (*speedp > 22000) { div = 0x80 | ess_calc_div (ES1688_CLOCK1, 256, speedp, &diff); } else { div = 0x00 | ess_calc_div (ES1688_CLOCK2, 128, speedp, &diff); } } *divp = div; } static void ess_speed (sb_devc *devc, int audionum) { int speed; int div, div2; ess_common_speed (devc, &(devc->speed), &div); #ifdef FKS_REG_LOGGING printk (KERN_INFO "FKS: ess_speed (%d) b speed = %d, div=%x\n", audionum, devc->speed, div); #endif /* Set filter roll-off to 90% of speed/2 */ speed = (devc->speed * 9) / 20; div2 = 256 - 7160000 / (speed * 82); if (!devc->duplex) audionum = 1; if (audionum == 1) { /* Change behaviour of register A1 * sb_chg_mixer(devc, 0x71, 0x20, 0x20) * For ES1869 only??? */ ess_write (devc, 0xa1, div); ess_write (devc, 0xa2, div2); } else { ess_setmixer (devc, 0x70, div); /* * FKS: fascinating: 0x72 doesn't seem to work. */ ess_write (devc, 0xa2, div2); ess_setmixer (devc, 0x72, div2); } } static int ess_audio_prepare_for_input(int dev, int bsize, int bcount) { sb_devc *devc = audio_devs[dev]->devc; ess_speed(devc, 1); sb_dsp_command(devc, DSP_CMD_SPKOFF); ess_write (devc, 0xb8, 0x0e); /* Auto init DMA mode */ ess_change (devc, 0xa8, 0x03, 3 - devc->channels); /* Mono/stereo */ ess_write (devc, 0xb9, 2); /* Demand mode (4 bytes/DMA request) */ ess_exec_commands (devc, ess_inp_cmds); ess_change (devc, 0xb1, 0xf0, 0x50); ess_change (devc, 0xb2, 0xf0, 0x50); devc->trigger_bits = 0; return 0; } static int ess_audio_prepare_for_output_audio1 (int dev, int bsize, int bcount) { sb_devc *devc = audio_devs[dev]->devc; sb_dsp_reset(devc); ess_speed(devc, 1); ess_write (devc, 0xb8, 4); /* Auto init DMA mode */ ess_change (devc, 0xa8, 0x03, 3 - devc->channels); /* Mono/stereo */ ess_write (devc, 0xb9, 2); /* Demand mode (4 bytes/request) */ ess_exec_commands (devc, ess_out_cmds); ess_change (devc, 0xb1, 0xf0, 0x50); /* Enable DMA */ ess_change (devc, 0xb2, 0xf0, 0x50); /* Enable IRQ */ sb_dsp_command(devc, DSP_CMD_SPKON); /* There be sound! */ devc->trigger_bits = 0; return 0; } static int ess_audio_prepare_for_output_audio2 (int dev, int bsize, int bcount) { sb_devc *devc = audio_devs[dev]->devc; unsigned char bits; /* FKS: qqq sb_dsp_reset(devc); */ /* * Auto-Initialize: * DMA mode + demand mode (8 bytes/request, yes I want it all!) * But leave 16-bit DMA bit untouched! */ ess_chgmixer (devc, 0x78, 0xd0, 0xd0); ess_speed(devc, 2); /* bits 4:3 on ES1887 represent recording source. Keep them! */ bits = ess_getmixer (devc, 0x7a) & 0x18; /* Set stereo/mono */ if (devc->channels != 1) bits |= 0x02; /* Init DACs; UNSIGNED mode for 8 bit; SIGNED mode for 16 bit */ if (devc->bits != AFMT_U8) bits |= 0x05; /* 16 bit */ /* Enable DMA, IRQ will be shared (hopefully)*/ bits |= 0x60; ess_setmixer (devc, 0x7a, bits); ess_mixer_reload (devc, SOUND_MIXER_PCM); /* There be sound! */ devc->trigger_bits = 0; return 0; } static int ess_audio_prepare_for_output(int dev, int bsize, int bcount) { sb_devc *devc = audio_devs[dev]->devc; #ifdef FKS_REG_LOGGING printk(KERN_INFO "ess_audio_prepare_for_output: dma_out=%d,dma_in=%d\n" , audio_devs[dev]->dmap_out->dma, audio_devs[dev]->dmap_in->dma); #endif if (devc->duplex) { return ess_audio_prepare_for_output_audio2 (dev, bsize, bcount); } else { return ess_audio_prepare_for_output_audio1 (dev, bsize, bcount); } } static void ess_audio_halt_xfer(int dev) { unsigned long flags; sb_devc *devc = audio_devs[dev]->devc; spin_lock_irqsave(&devc->lock, flags); sb_dsp_reset(devc); spin_unlock_irqrestore(&devc->lock, flags); /* * Audio 2 may still be operational! Creates awful sounds! */ if (devc->duplex) ess_chgmixer(devc, 0x78, 0x03, 0x00); } static void ess_audio_start_input (int dev, unsigned long buf, int nr_bytes, int intrflag) { int count = nr_bytes; sb_devc *devc = audio_devs[dev]->devc; short c = -nr_bytes; /* * Start a DMA input to the buffer pointed by dmaqtail */ if (audio_devs[dev]->dmap_in->dma > 3) count >>= 1; count--; devc->irq_mode = IMODE_INPUT; ess_write (devc, 0xa4, (unsigned char) ((unsigned short) c & 0xff)); ess_write (devc, 0xa5, (unsigned char) (((unsigned short) c >> 8) & 0xff)); ess_change (devc, 0xb8, 0x0f, 0x0f); /* Go */ devc->intr_active = 1; } static void ess_audio_output_block_audio1 (int dev, unsigned long buf, int nr_bytes, int intrflag) { int count = nr_bytes; sb_devc *devc = audio_devs[dev]->devc; short c = -nr_bytes; if (audio_devs[dev]->dmap_out->dma > 3) count >>= 1; count--; devc->irq_mode = IMODE_OUTPUT; ess_write (devc, 0xa4, (unsigned char) ((unsigned short) c & 0xff)); ess_write (devc, 0xa5, (unsigned char) (((unsigned short) c >> 8) & 0xff)); ess_change (devc, 0xb8, 0x05, 0x05); /* Go */ devc->intr_active = 1; } static void ess_audio_output_block_audio2 (int dev, unsigned long buf, int nr_bytes, int intrflag) { int count = nr_bytes; sb_devc *devc = audio_devs[dev]->devc; short c = -nr_bytes; if (audio_devs[dev]->dmap_out->dma > 3) count >>= 1; count--; ess_setmixer (devc, 0x74, (unsigned char) ((unsigned short) c & 0xff)); ess_setmixer (devc, 0x76, (unsigned char) (((unsigned short) c >> 8) & 0xff)); ess_chgmixer (devc, 0x78, 0x03, 0x03); /* Go */ devc->irq_mode_16 = IMODE_OUTPUT; devc->intr_active_16 = 1; } static void ess_audio_output_block (int dev, unsigned long buf, int nr_bytes, int intrflag) { sb_devc *devc = audio_devs[dev]->devc; if (devc->duplex) { ess_audio_output_block_audio2 (dev, buf, nr_bytes, intrflag); } else { ess_audio_output_block_audio1 (dev, buf, nr_bytes, intrflag); } } /* * FKS: the if-statements for both bits and bits_16 are quite alike. * Combine this... */ static void ess_audio_trigger(int dev, int bits) { sb_devc *devc = audio_devs[dev]->devc; int bits_16 = bits & devc->irq_mode_16; bits &= devc->irq_mode; if (!bits && !bits_16) { /* FKS oh oh.... wrong?? for dma 16? */ sb_dsp_command(devc, 0xd0); /* Halt DMA */ } if (bits) { switch (devc->irq_mode) { case IMODE_INPUT: ess_audio_start_input(dev, devc->trg_buf, devc->trg_bytes, devc->trg_intrflag); break; case IMODE_OUTPUT: ess_audio_output_block(dev, devc->trg_buf, devc->trg_bytes, devc->trg_intrflag); break; } } if (bits_16) { switch (devc->irq_mode_16) { case IMODE_INPUT: ess_audio_start_input(dev, devc->trg_buf_16, devc->trg_bytes_16, devc->trg_intrflag_16); break; case IMODE_OUTPUT: ess_audio_output_block(dev, devc->trg_buf_16, devc->trg_bytes_16, devc->trg_intrflag_16); break; } } devc->trigger_bits = bits | bits_16; } static int ess_audio_set_speed(int dev, int speed) { sb_devc *devc = audio_devs[dev]->devc; int minspeed, maxspeed, dummydiv; if (speed > 0) { minspeed = (devc->duplex ? 6215 : 5000 ); maxspeed = (devc->duplex ? 44100 : 48000); if (speed < minspeed) speed = minspeed; if (speed > maxspeed) speed = maxspeed; ess_common_speed (devc, &speed, &dummydiv); devc->speed = speed; } return devc->speed; } /* * FKS: This is a one-on-one copy of sb1_audio_set_bits */ static unsigned int ess_audio_set_bits(int dev, unsigned int bits) { sb_devc *devc = audio_devs[dev]->devc; if (bits != 0) { if (bits == AFMT_U8 || bits == AFMT_S16_LE) { devc->bits = bits; } else { devc->bits = AFMT_U8; } } return devc->bits; } /* * FKS: This is a one-on-one copy of sbpro_audio_set_channels * (*) Modified it!! */ static short ess_audio_set_channels(int dev, short channels) { sb_devc *devc = audio_devs[dev]->devc; if (channels == 1 || channels == 2) devc->channels = channels; return devc->channels; } static struct audio_driver ess_audio_driver = /* ESS ES688/1688 */ { owner: THIS_MODULE, open: sb_audio_open, close: sb_audio_close, output_block: ess_set_output_parms, start_input: ess_set_input_parms, prepare_for_input: ess_audio_prepare_for_input, prepare_for_output: ess_audio_prepare_for_output, halt_io: ess_audio_halt_xfer, trigger: ess_audio_trigger, set_speed: ess_audio_set_speed, set_bits: ess_audio_set_bits, set_channels: ess_audio_set_channels }; /* * ess_audio_init must be called from sb_audio_init */ struct audio_driver *ess_audio_init (sb_devc *devc, int *audio_flags, int *format_mask) { *audio_flags = DMA_AUTOMODE; *format_mask |= AFMT_S16_LE; if (devc->duplex) { int tmp_dma; /* * sb_audio_init thinks dma8 is for playback and * dma16 is for record. Not now! So swap them. */ tmp_dma = devc->dma16; devc->dma16 = devc->dma8; devc->dma8 = tmp_dma; *audio_flags |= DMA_DUPLEX; } return &ess_audio_driver; } /**************************************************************************** * * * ESS common * * * ****************************************************************************/ static void ess_handle_channel (char *channel, int dev, int intr_active, unsigned char flag, int irq_mode) { if (!intr_active || !flag) return; #ifdef FKS_REG_LOGGING printk(KERN_INFO "FKS: ess_handle_channel %s irq_mode=%d\n", channel, irq_mode); #endif switch (irq_mode) { case IMODE_OUTPUT: DMAbuf_outputintr (dev, 1); break; case IMODE_INPUT: DMAbuf_inputintr (dev); break; case IMODE_INIT: break; default:; /* printk(KERN_WARN "ESS: Unexpected interrupt\n"); */ } } /* * FKS: TODO!!! Finish this! * * I think midi stuff uses uart401, without interrupts. * So IMODE_MIDI isn't a value for devc->irq_mode. */ void ess_intr (sb_devc *devc) { int status; unsigned char src; if (devc->submodel == SUBMDL_ES1887) { src = ess_getmixer (devc, 0x7f) >> 4; } else { src = 0xff; } #ifdef FKS_REG_LOGGING printk(KERN_INFO "FKS: sbintr src=%x\n",(int)src); #endif ess_handle_channel ( "Audio 1" , devc->dev, devc->intr_active , src & 0x01, devc->irq_mode ); ess_handle_channel ( "Audio 2" , devc->dev, devc->intr_active_16, src & 0x02, devc->irq_mode_16); /* * Acknowledge interrupts */ if (devc->submodel == SUBMDL_ES1887 && (src & 0x02)) { ess_chgmixer (devc, 0x7a, 0x80, 0x00); } if (src & 0x01) { status = inb(DSP_DATA_AVAIL); } } static void ess_extended (sb_devc * devc) { /* Enable extended mode */ sb_dsp_command(devc, 0xc6); } static int ess_write (sb_devc * devc, unsigned char reg, unsigned char data) { #ifdef FKS_REG_LOGGING printk(KERN_INFO "FKS: write reg %x: %x\n", reg, data); #endif /* Write a byte to an extended mode register of ES1688 */ if (!sb_dsp_command(devc, reg)) return 0; return sb_dsp_command(devc, data); } static int ess_read (sb_devc * devc, unsigned char reg) { /* Read a byte from an extended mode register of ES1688 */ /* Read register command */ if (!sb_dsp_command(devc, 0xc0)) return -1; if (!sb_dsp_command(devc, reg )) return -1; return sb_dsp_get_byte(devc); } int ess_dsp_reset(sb_devc * devc) { int loopc; #ifdef FKS_REG_LOGGING printk(KERN_INFO "FKS: ess_dsp_reset 1\n"); ess_show_mixerregs (devc); #endif DEB(printk("Entered ess_dsp_reset()\n")); outb(3, DSP_RESET); /* Reset FIFO too */ udelay(10); outb(0, DSP_RESET); udelay(30); for (loopc = 0; loopc < 1000 && !(inb(DSP_DATA_AVAIL) & 0x80); loopc++); if (inb(DSP_READ) != 0xAA) { DDB(printk("sb: No response to RESET\n")); return 0; /* Sorry */ } ess_extended (devc); DEB(printk("sb_dsp_reset() OK\n")); #ifdef FKS_LOGGING printk(KERN_INFO "FKS: dsp_reset 2\n"); ess_show_mixerregs (devc); #endif return 1; } static int ess_irq_bits (int irq) { switch (irq) { case 2: case 9: return 0; case 5: return 1; case 7: return 2; case 10: return 3; default: printk(KERN_ERR "ESS1688: Invalid IRQ %d\n", irq); return -1; } } /* * Set IRQ configuration register for all ESS models */ static int ess_common_set_irq_hw (sb_devc * devc) { int irq_bits; if ((irq_bits = ess_irq_bits (devc->irq)) == -1) return 0; if (!ess_write (devc, 0xb1, 0x50 | (irq_bits << 2))) { printk(KERN_ERR "ES1688: Failed to write to IRQ config register\n"); return 0; } return 1; } /* * I wanna use modern ES1887 mixer irq handling. Funny is the * fact that my BIOS wants the same. But suppose someone's BIOS * doesn't do this! * This is independent of duplex. If there's a 1887 this will * prevent it from going into 1888 mode. */ static void ess_es1887_set_irq_hw (sb_devc * devc) { int irq_bits; if ((irq_bits = ess_irq_bits (devc->irq)) == -1) return; ess_chgmixer (devc, 0x7f, 0x0f, 0x01 | ((irq_bits + 1) << 1)); } static int ess_set_irq_hw (sb_devc * devc) { if (devc->submodel == SUBMDL_ES1887) ess_es1887_set_irq_hw (devc); return ess_common_set_irq_hw (devc); } #ifdef FKS_TEST /* * FKS_test: * for ES1887: 00, 18, non wr bits: 0001 1000 * for ES1868: 00, b8, non wr bits: 1011 1000 * for ES1888: 00, f8, non wr bits: 1111 1000 * for ES1688: 00, f8, non wr bits: 1111 1000 * + ES968 */ static void FKS_test (sb_devc * devc) { int val1, val2; val1 = ess_getmixer (devc, 0x64); ess_setmixer (devc, 0x64, ~val1); val2 = ess_getmixer (devc, 0x64) ^ ~val1; ess_setmixer (devc, 0x64, val1); val1 ^= ess_getmixer (devc, 0x64); printk (KERN_INFO "FKS: FKS_test %02x, %02x\n", (val1 & 0x0ff), (val2 & 0x0ff)); }; #endif static unsigned int ess_identify (sb_devc * devc) { unsigned int val; unsigned long flags; spin_lock_irqsave(&devc->lock, flags); outb(((unsigned char) (0x40 & 0xff)), MIXER_ADDR); udelay(20); val = inb(MIXER_DATA) << 8; udelay(20); val |= inb(MIXER_DATA); udelay(20); spin_unlock_irqrestore(&devc->lock, flags); return val; } /* * ESS technology describes a detection scheme in their docs. It involves * fiddling with the bits in certain mixer registers. ess_probe is supposed * to help. * * FKS: tracing shows ess_probe writes wrong value to 0x64. Bit 3 reads 1, but * should be written 0 only. Check this. */ static int ess_probe (sb_devc * devc, int reg, int xorval) { int val1, val2, val3; val1 = ess_getmixer (devc, reg); val2 = val1 ^ xorval; ess_setmixer (devc, reg, val2); val3 = ess_getmixer (devc, reg); ess_setmixer (devc, reg, val1); return (val2 == val3); } int ess_init(sb_devc * devc, struct address_info *hw_config) { unsigned char cfg; int ess_major = 0, ess_minor = 0; int i; static char name[100], modelname[10]; /* * Try to detect ESS chips. */ sb_dsp_command(devc, 0xe7); /* Return identification */ for (i = 1000; i; i--) { if (inb(DSP_DATA_AVAIL) & 0x80) { if (ess_major == 0) { ess_major = inb(DSP_READ); } else { ess_minor = inb(DSP_READ); break; } } } if (ess_major == 0) return 0; if (ess_major == 0x48 && (ess_minor & 0xf0) == 0x80) { sprintf(name, "ESS ES488 AudioDrive (rev %d)", ess_minor & 0x0f); hw_config->name = name; devc->model = MDL_SBPRO; return 1; } /* * This the detection heuristic of ESS technology, though somewhat * changed to actually make it work. * This results in the following detection steps: * - distinct between ES688 and ES1688+ (as always done in this driver) * if ES688 we're ready * - try to detect ES1868, ES1869 or ES1878 (ess_identify) * if successful we're ready * - try to detect ES1888, ES1887 or ES1788 (aim: detect ES1887) * if successful we're ready * - Dunno. Must be 1688. Will do in general * * This is the most BETA part of the software: Will the detection * always work? */ devc->model = MDL_ESS; devc->submodel = ess_minor & 0x0f; if (ess_major == 0x68 && (ess_minor & 0xf0) == 0x80) { char *chip = NULL; int submodel = -1; switch (devc->sbmo.esstype) { case ESSTYPE_DETECT: case ESSTYPE_LIKE20: break; case 688: submodel = 0x00; break; case 1688: submodel = 0x08; break; case 1868: submodel = SUBMDL_ES1868; break; case 1869: submodel = SUBMDL_ES1869; break; case 1788: submodel = SUBMDL_ES1788; break; case 1878: submodel = SUBMDL_ES1878; break; case 1879: submodel = SUBMDL_ES1879; break; case 1887: submodel = SUBMDL_ES1887; break; case 1888: submodel = SUBMDL_ES1888; break; default: printk (KERN_ERR "Invalid esstype=%d specified\n", devc->sbmo.esstype); return 0; }; if (submodel != -1) { devc->submodel = submodel; sprintf (modelname, "ES%d", devc->sbmo.esstype); chip = modelname; }; if (chip == NULL && (ess_minor & 0x0f) < 8) { chip = "ES688"; }; #ifdef FKS_TEST FKS_test (devc); #endif /* * If Nothing detected yet, and we want 2.0 behaviour... * Then let's assume it's ES1688. */ if (chip == NULL && devc->sbmo.esstype == ESSTYPE_LIKE20) { chip = "ES1688"; }; if (chip == NULL) { int type; type = ess_identify (devc); switch (type) { case 0x1868: chip = "ES1868"; devc->submodel = SUBMDL_ES1868; break; case 0x1869: chip = "ES1869"; devc->submodel = SUBMDL_ES1869; break; case 0x1878: chip = "ES1878"; devc->submodel = SUBMDL_ES1878; break; case 0x1879: chip = "ES1879"; devc->submodel = SUBMDL_ES1879; break; default: if ((type & 0x00ff) != ((type >> 8) & 0x00ff)) { printk ("ess_init: Unrecognized %04x\n", type); } }; }; #if 0 /* * this one failed: * the probing of bit 4 is another thought: from ES1788 and up, all * chips seem to have hardware volume control. Bit 4 is readonly to * check if a hardware volume interrupt has fired. * Cause ES688/ES1688 don't have this feature, bit 4 might be writeable * for these chips. */ if (chip == NULL && !ess_probe(devc, 0x64, (1 << 4))) { #endif /* * the probing of bit 2 is my idea. The ES1887 docs want me to probe * bit 3. This results in ES1688 being detected as ES1788. * Bit 2 is for "Enable HWV IRQE", but as ES(1)688 chips don't have * HardWare Volume, I think they don't have this IRQE. */ if (chip == NULL && ess_probe(devc, 0x64, (1 << 2))) { if (ess_probe (devc, 0x70, 0x7f)) { if (ess_probe (devc, 0x64, (1 << 5))) { chip = "ES1887"; devc->submodel = SUBMDL_ES1887; } else { chip = "ES1888"; devc->submodel = SUBMDL_ES1888; } } else { chip = "ES1788"; devc->submodel = SUBMDL_ES1788; } }; if (chip == NULL) { chip = "ES1688"; }; printk ( KERN_INFO "ESS chip %s %s%s\n" , chip , ( devc->sbmo.esstype == ESSTYPE_DETECT || devc->sbmo.esstype == ESSTYPE_LIKE20 ? "detected" : "specified" ) , ( devc->sbmo.esstype == ESSTYPE_LIKE20 ? " (kernel 2.0 compatible)" : "" ) ); sprintf(name,"ESS %s AudioDrive (rev %d)", chip, ess_minor & 0x0f); } else { strcpy(name, "Jazz16"); } /* AAS: info stolen from ALSA: these boards have different clocks */ switch(devc->submodel) { /* APPARENTLY NOT 1869 AND 1887 case SUBMDL_ES1869: case SUBMDL_ES1887: */ case SUBMDL_ES1888: devc->caps |= SB_CAP_ES18XX_RATE; break; } hw_config->name = name; /* FKS: sb_dsp_reset to enable extended mode???? */ sb_dsp_reset(devc); /* Turn on extended mode */ /* * Enable joystick and OPL3 */ cfg = ess_getmixer (devc, 0x40); ess_setmixer (devc, 0x40, cfg | 0x03); if (devc->submodel >= 8) { /* ES1688 */ devc->caps |= SB_NO_MIDI; /* ES1688 uses MPU401 MIDI mode */ } sb_dsp_reset (devc); /* * This is important! If it's not done, the IRQ probe in sb_dsp_init * may fail. */ return ess_set_irq_hw (devc); } static int ess_set_dma_hw(sb_devc * devc) { unsigned char cfg, dma_bits = 0, dma16_bits; int dma; #ifdef FKS_LOGGING printk(KERN_INFO "ess_set_dma_hw: dma8=%d,dma16=%d,dup=%d\n" , devc->dma8, devc->dma16, devc->duplex); #endif /* * FKS: It seems as if this duplex flag isn't set yet. Check it. */ dma = devc->dma8; if (dma > 3 || dma < 0 || dma == 2) { dma_bits = 0; printk(KERN_ERR "ESS1688: Invalid DMA8 %d\n", dma); return 0; } else { /* Extended mode DMA enable */ cfg = 0x50; if (dma == 3) { dma_bits = 3; } else { dma_bits = dma + 1; } } if (!ess_write (devc, 0xb2, cfg | (dma_bits << 2))) { printk(KERN_ERR "ESS1688: Failed to write to DMA config register\n"); return 0; } if (devc->duplex) { dma = devc->dma16; dma16_bits = 0; if (dma >= 0) { switch (dma) { case 0: dma_bits = 0x04; break; case 1: dma_bits = 0x05; break; case 3: dma_bits = 0x06; break; case 5: dma_bits = 0x07; dma16_bits = 0x20; break; default: printk(KERN_ERR "ESS1887: Invalid DMA16 %d\n", dma); return 0; }; ess_chgmixer (devc, 0x78, 0x20, dma16_bits); ess_chgmixer (devc, 0x7d, 0x07, dma_bits); } } return 1; } /* * This one is called from sb_dsp_init. * * Return values: * 0: Failed * 1: Succeeded or doesn't apply (not SUBMDL_ES1887) */ int ess_dsp_init (sb_devc *devc, struct address_info *hw_config) { /* * Caller also checks this, but anyway */ if (devc->model != MDL_ESS) { printk (KERN_INFO "ess_dsp_init for non ESS chip\n"); return 1; } /* * This for ES1887 to run Full Duplex. Actually ES1888 * is allowed to do so too. I have no idea yet if this * will work for ES1888 however. * * For SB16 having both dma8 and dma16 means enable * Full Duplex. Let's try this for ES1887 too * */ if (devc->submodel == SUBMDL_ES1887) { if (hw_config->dma2 != -1) { devc->dma16 = hw_config->dma2; } /* * devc->duplex initialization is put here, cause * ess_set_dma_hw needs it. */ if (devc->dma8 != devc->dma16 && devc->dma16 != -1) { devc->duplex = 1; } } if (!ess_set_dma_hw (devc)) { free_irq(devc->irq, devc); return 0; } return 1; } /**************************************************************************** * * * ESS mixer * * * ****************************************************************************/ #define ES688_RECORDING_DEVICES \ ( SOUND_MASK_LINE | SOUND_MASK_MIC | SOUND_MASK_CD ) #define ES688_MIXER_DEVICES \ ( SOUND_MASK_SYNTH | SOUND_MASK_PCM | SOUND_MASK_LINE \ | SOUND_MASK_MIC | SOUND_MASK_CD | SOUND_MASK_VOLUME \ | SOUND_MASK_LINE2 | SOUND_MASK_SPEAKER ) #define ES1688_RECORDING_DEVICES \ ( ES688_RECORDING_DEVICES ) #define ES1688_MIXER_DEVICES \ ( ES688_MIXER_DEVICES | SOUND_MASK_RECLEV ) #define ES1887_RECORDING_DEVICES \ ( ES1688_RECORDING_DEVICES | SOUND_MASK_LINE2 | SOUND_MASK_SYNTH) #define ES1887_MIXER_DEVICES \ ( ES1688_MIXER_DEVICES ) /* * Mixer registers of ES1887 * * These registers specifically take care of recording levels. To make the * mapping from playback devices to recording devices every recording * devices = playback device + ES_REC_MIXER_RECDIFF */ #define ES_REC_MIXER_RECBASE (SOUND_MIXER_LINE3 + 1) #define ES_REC_MIXER_RECDIFF (ES_REC_MIXER_RECBASE - SOUND_MIXER_SYNTH) #define ES_REC_MIXER_RECSYNTH (SOUND_MIXER_SYNTH + ES_REC_MIXER_RECDIFF) #define ES_REC_MIXER_RECPCM (SOUND_MIXER_PCM + ES_REC_MIXER_RECDIFF) #define ES_REC_MIXER_RECSPEAKER (SOUND_MIXER_SPEAKER + ES_REC_MIXER_RECDIFF) #define ES_REC_MIXER_RECLINE (SOUND_MIXER_LINE + ES_REC_MIXER_RECDIFF) #define ES_REC_MIXER_RECMIC (SOUND_MIXER_MIC + ES_REC_MIXER_RECDIFF) #define ES_REC_MIXER_RECCD (SOUND_MIXER_CD + ES_REC_MIXER_RECDIFF) #define ES_REC_MIXER_RECIMIX (SOUND_MIXER_IMIX + ES_REC_MIXER_RECDIFF) #define ES_REC_MIXER_RECALTPCM (SOUND_MIXER_ALTPCM + ES_REC_MIXER_RECDIFF) #define ES_REC_MIXER_RECRECLEV (SOUND_MIXER_RECLEV + ES_REC_MIXER_RECDIFF) #define ES_REC_MIXER_RECIGAIN (SOUND_MIXER_IGAIN + ES_REC_MIXER_RECDIFF) #define ES_REC_MIXER_RECOGAIN (SOUND_MIXER_OGAIN + ES_REC_MIXER_RECDIFF) #define ES_REC_MIXER_RECLINE1 (SOUND_MIXER_LINE1 + ES_REC_MIXER_RECDIFF) #define ES_REC_MIXER_RECLINE2 (SOUND_MIXER_LINE2 + ES_REC_MIXER_RECDIFF) #define ES_REC_MIXER_RECLINE3 (SOUND_MIXER_LINE3 + ES_REC_MIXER_RECDIFF) static mixer_tab es688_mix = { MIX_ENT(SOUND_MIXER_VOLUME, 0x32, 7, 4, 0x32, 3, 4), MIX_ENT(SOUND_MIXER_BASS, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_TREBLE, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_SYNTH, 0x36, 7, 4, 0x36, 3, 4), MIX_ENT(SOUND_MIXER_PCM, 0x14, 7, 4, 0x14, 3, 4), MIX_ENT(SOUND_MIXER_SPEAKER, 0x3c, 2, 3, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE, 0x3e, 7, 4, 0x3e, 3, 4), MIX_ENT(SOUND_MIXER_MIC, 0x1a, 7, 4, 0x1a, 3, 4), MIX_ENT(SOUND_MIXER_CD, 0x38, 7, 4, 0x38, 3, 4), MIX_ENT(SOUND_MIXER_IMIX, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_ALTPCM, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_RECLEV, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_IGAIN, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_OGAIN, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE1, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE2, 0x3a, 7, 4, 0x3a, 3, 4), MIX_ENT(SOUND_MIXER_LINE3, 0x00, 0, 0, 0x00, 0, 0) }; /* * The ES1688 specifics... hopefully correct... * - 6 bit master volume * I was wrong, ES1888 docs say ES1688 didn't have it. * - RECLEV control * These may apply to ES688 too. I have no idea. */ static mixer_tab es1688_mix = { MIX_ENT(SOUND_MIXER_VOLUME, 0x32, 7, 4, 0x32, 3, 4), MIX_ENT(SOUND_MIXER_BASS, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_TREBLE, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_SYNTH, 0x36, 7, 4, 0x36, 3, 4), MIX_ENT(SOUND_MIXER_PCM, 0x14, 7, 4, 0x14, 3, 4), MIX_ENT(SOUND_MIXER_SPEAKER, 0x3c, 2, 3, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE, 0x3e, 7, 4, 0x3e, 3, 4), MIX_ENT(SOUND_MIXER_MIC, 0x1a, 7, 4, 0x1a, 3, 4), MIX_ENT(SOUND_MIXER_CD, 0x38, 7, 4, 0x38, 3, 4), MIX_ENT(SOUND_MIXER_IMIX, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_ALTPCM, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_RECLEV, 0xb4, 7, 4, 0xb4, 3, 4), MIX_ENT(SOUND_MIXER_IGAIN, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_OGAIN, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE1, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE2, 0x3a, 7, 4, 0x3a, 3, 4), MIX_ENT(SOUND_MIXER_LINE3, 0x00, 0, 0, 0x00, 0, 0) }; static mixer_tab es1688later_mix = { MIX_ENT(SOUND_MIXER_VOLUME, 0x60, 5, 6, 0x62, 5, 6), MIX_ENT(SOUND_MIXER_BASS, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_TREBLE, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_SYNTH, 0x36, 7, 4, 0x36, 3, 4), MIX_ENT(SOUND_MIXER_PCM, 0x14, 7, 4, 0x14, 3, 4), MIX_ENT(SOUND_MIXER_SPEAKER, 0x3c, 2, 3, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE, 0x3e, 7, 4, 0x3e, 3, 4), MIX_ENT(SOUND_MIXER_MIC, 0x1a, 7, 4, 0x1a, 3, 4), MIX_ENT(SOUND_MIXER_CD, 0x38, 7, 4, 0x38, 3, 4), MIX_ENT(SOUND_MIXER_IMIX, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_ALTPCM, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_RECLEV, 0xb4, 7, 4, 0xb4, 3, 4), MIX_ENT(SOUND_MIXER_IGAIN, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_OGAIN, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE1, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE2, 0x3a, 7, 4, 0x3a, 3, 4), MIX_ENT(SOUND_MIXER_LINE3, 0x00, 0, 0, 0x00, 0, 0) }; /* * This one is for all ESS chips with a record mixer. * It's not used (yet) however */ static mixer_tab es_rec_mix = { MIX_ENT(SOUND_MIXER_VOLUME, 0x60, 5, 6, 0x62, 5, 6), MIX_ENT(SOUND_MIXER_BASS, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_TREBLE, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_SYNTH, 0x36, 7, 4, 0x36, 3, 4), MIX_ENT(SOUND_MIXER_PCM, 0x14, 7, 4, 0x14, 3, 4), MIX_ENT(SOUND_MIXER_SPEAKER, 0x3c, 2, 3, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE, 0x3e, 7, 4, 0x3e, 3, 4), MIX_ENT(SOUND_MIXER_MIC, 0x1a, 7, 4, 0x1a, 3, 4), MIX_ENT(SOUND_MIXER_CD, 0x38, 7, 4, 0x38, 3, 4), MIX_ENT(SOUND_MIXER_IMIX, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_ALTPCM, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_RECLEV, 0xb4, 7, 4, 0xb4, 3, 4), MIX_ENT(SOUND_MIXER_IGAIN, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_OGAIN, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE1, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE2, 0x3a, 7, 4, 0x3a, 3, 4), MIX_ENT(SOUND_MIXER_LINE3, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECSYNTH, 0x6b, 7, 4, 0x6b, 3, 4), MIX_ENT(ES_REC_MIXER_RECPCM, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECSPEAKER, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECLINE, 0x6e, 7, 4, 0x6e, 3, 4), MIX_ENT(ES_REC_MIXER_RECMIC, 0x68, 7, 4, 0x68, 3, 4), MIX_ENT(ES_REC_MIXER_RECCD, 0x6a, 7, 4, 0x6a, 3, 4), MIX_ENT(ES_REC_MIXER_RECIMIX, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECALTPCM, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECRECLEV, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECIGAIN, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECOGAIN, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECLINE1, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECLINE2, 0x6c, 7, 4, 0x6c, 3, 4), MIX_ENT(ES_REC_MIXER_RECLINE3, 0x00, 0, 0, 0x00, 0, 0) }; /* * This one is for ES1887. It's little different from es_rec_mix: it * has 0x7c for PCM playback level. This is because ES1887 uses * Audio 2 for playback. */ static mixer_tab es1887_mix = { MIX_ENT(SOUND_MIXER_VOLUME, 0x60, 5, 6, 0x62, 5, 6), MIX_ENT(SOUND_MIXER_BASS, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_TREBLE, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_SYNTH, 0x36, 7, 4, 0x36, 3, 4), MIX_ENT(SOUND_MIXER_PCM, 0x7c, 7, 4, 0x7c, 3, 4), MIX_ENT(SOUND_MIXER_SPEAKER, 0x3c, 2, 3, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE, 0x3e, 7, 4, 0x3e, 3, 4), MIX_ENT(SOUND_MIXER_MIC, 0x1a, 7, 4, 0x1a, 3, 4), MIX_ENT(SOUND_MIXER_CD, 0x38, 7, 4, 0x38, 3, 4), MIX_ENT(SOUND_MIXER_IMIX, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_ALTPCM, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_RECLEV, 0xb4, 7, 4, 0xb4, 3, 4), MIX_ENT(SOUND_MIXER_IGAIN, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_OGAIN, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE1, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(SOUND_MIXER_LINE2, 0x3a, 7, 4, 0x3a, 3, 4), MIX_ENT(SOUND_MIXER_LINE3, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECSYNTH, 0x6b, 7, 4, 0x6b, 3, 4), MIX_ENT(ES_REC_MIXER_RECPCM, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECSPEAKER, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECLINE, 0x6e, 7, 4, 0x6e, 3, 4), MIX_ENT(ES_REC_MIXER_RECMIC, 0x68, 7, 4, 0x68, 3, 4), MIX_ENT(ES_REC_MIXER_RECCD, 0x6a, 7, 4, 0x6a, 3, 4), MIX_ENT(ES_REC_MIXER_RECIMIX, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECALTPCM, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECRECLEV, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECIGAIN, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECOGAIN, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECLINE1, 0x00, 0, 0, 0x00, 0, 0), MIX_ENT(ES_REC_MIXER_RECLINE2, 0x6c, 7, 4, 0x6c, 3, 4), MIX_ENT(ES_REC_MIXER_RECLINE3, 0x00, 0, 0, 0x00, 0, 0) }; static int ess_has_rec_mixer (int submodel) { switch (submodel) { case SUBMDL_ES1887: return 1; default: return 0; }; }; #ifdef FKS_LOGGING static int ess_mixer_mon_regs[] = { 0x70, 0x71, 0x72, 0x74, 0x76, 0x78, 0x7a, 0x7c, 0x7d, 0x7f , 0xa1, 0xa2, 0xa4, 0xa5, 0xa8, 0xa9 , 0xb1, 0xb2, 0xb4, 0xb5, 0xb6, 0xb7, 0xb9 , 0x00}; static void ess_show_mixerregs (sb_devc *devc) { int *mp = ess_mixer_mon_regs; return; while (*mp != 0) { printk (KERN_INFO "res (%x)=%x\n", *mp, (int)(ess_getmixer (devc, *mp))); mp++; } } #endif void ess_setmixer (sb_devc * devc, unsigned int port, unsigned int value) { unsigned long flags; #ifdef FKS_LOGGING printk(KERN_INFO "FKS: write mixer %x: %x\n", port, value); #endif spin_lock_irqsave(&devc->lock, flags); if (port >= 0xa0) { ess_write (devc, port, value); } else { outb(((unsigned char) (port & 0xff)), MIXER_ADDR); udelay(20); outb(((unsigned char) (value & 0xff)), MIXER_DATA); udelay(20); }; spin_unlock_irqrestore(&devc->lock, flags); } unsigned int ess_getmixer (sb_devc * devc, unsigned int port) { unsigned int val; unsigned long flags; spin_lock_irqsave(&devc->lock, flags); if (port >= 0xa0) { val = ess_read (devc, port); } else { outb(((unsigned char) (port & 0xff)), MIXER_ADDR); udelay(20); val = inb(MIXER_DATA); udelay(20); } spin_unlock_irqrestore(&devc->lock, flags); return val; } static void ess_chgmixer (sb_devc * devc, unsigned int reg, unsigned int mask, unsigned int val) { int value; value = ess_getmixer (devc, reg); value = (value & ~mask) | (val & mask); ess_setmixer (devc, reg, value); } /* * ess_mixer_init must be called from sb_mixer_init */ void ess_mixer_init (sb_devc * devc) { devc->mixer_caps = SOUND_CAP_EXCL_INPUT; /* * Take care of ES1887 specifics... */ switch (devc->submodel) { case SUBMDL_ES1887: devc->supported_devices = ES1887_MIXER_DEVICES; devc->supported_rec_devices = ES1887_RECORDING_DEVICES; #ifdef FKS_LOGGING printk (KERN_INFO "FKS: ess_mixer_init dup = %d\n", devc->duplex); #endif if (devc->duplex) { devc->iomap = &es1887_mix; } else { devc->iomap = &es_rec_mix; } break; default: if (devc->submodel < 8) { devc->supported_devices = ES688_MIXER_DEVICES; devc->supported_rec_devices = ES688_RECORDING_DEVICES; devc->iomap = &es688_mix; } else { /* * es1688 has 4 bits master vol. * later chips have 6 bits (?) */ devc->supported_devices = ES1688_MIXER_DEVICES; devc->supported_rec_devices = ES1688_RECORDING_DEVICES; if (devc->submodel < 0x10) { devc->iomap = &es1688_mix; } else { devc->iomap = &es1688later_mix; } } } } /* * Changing playback levels at an ESS chip with record mixer means having to * take care of recording levels of recorded inputs (devc->recmask) too! */ int ess_mixer_set(sb_devc *devc, int dev, int left, int right) { if (ess_has_rec_mixer (devc->submodel) && (devc->recmask & (1 << dev))) { sb_common_mixer_set (devc, dev + ES_REC_MIXER_RECDIFF, left, right); } return sb_common_mixer_set (devc, dev, left, right); } /* * After a sb_dsp_reset extended register 0xb4 (RECLEV) is reset too. After * sb_dsp_reset RECLEV has to be restored. This is where ess_mixer_reload * helps. */ void ess_mixer_reload (sb_devc *devc, int dev) { int left, right, value; value = devc->levels[dev]; left = value & 0x000000ff; right = (value & 0x0000ff00) >> 8; sb_common_mixer_set(devc, dev, left, right); } int es_rec_set_recmask(sb_devc * devc, int mask) { int i, i_mask, cur_mask, diff_mask; int value, left, right; #ifdef FKS_LOGGING printk (KERN_INFO "FKS: es_rec_set_recmask mask = %x\n", mask); #endif /* * Changing the recmask on an ESS chip with recording mixer means: * (1) Find the differences * (2) For "turned-on" inputs: make the recording level the playback level * (3) For "turned-off" inputs: make the recording level zero */ cur_mask = devc->recmask; diff_mask = (cur_mask ^ mask); for (i = 0; i < 32; i++) { i_mask = (1 << i); if (diff_mask & i_mask) { /* Difference? (1) */ if (mask & i_mask) { /* Turn it on (2) */ value = devc->levels[i]; left = value & 0x000000ff; right = (value & 0x0000ff00) >> 8; } else { /* Turn it off (3) */ left = 0; left = 0; right = 0; } sb_common_mixer_set(devc, i + ES_REC_MIXER_RECDIFF, left, right); } } return mask; } int ess_set_recmask(sb_devc * devc, int *mask) { /* This applies to ESS chips with record mixers only! */ if (ess_has_rec_mixer (devc->submodel)) { *mask = es_rec_set_recmask (devc, *mask); return 1; /* Applied */ } else { return 0; /* Not applied */ } } /* * ess_mixer_reset must be called from sb_mixer_reset */ int ess_mixer_reset (sb_devc * devc) { /* * Separate actions for ESS chips with a record mixer: */ if (ess_has_rec_mixer (devc->submodel)) { switch (devc->submodel) { case SUBMDL_ES1887: /* * Separate actions for ES1887: * Change registers 7a and 1c to make the record mixer the * actual recording source. */ ess_chgmixer(devc, 0x7a, 0x18, 0x08); ess_chgmixer(devc, 0x1c, 0x07, 0x07); break; }; /* * Call set_recmask for proper initialization */ devc->recmask = devc->supported_rec_devices; es_rec_set_recmask(devc, 0); devc->recmask = 0; return 1; /* We took care of recmask. */ } else { return 0; /* We didn't take care; caller do it */ } } /**************************************************************************** * * * ESS midi * * * ****************************************************************************/ /* * FKS: IRQ may be shared. Hm. And if so? Then What? */ int ess_midi_init(sb_devc * devc, struct address_info *hw_config) { unsigned char cfg, tmp; cfg = ess_getmixer (devc, 0x40) & 0x03; if (devc->submodel < 8) { ess_setmixer (devc, 0x40, cfg | 0x03); /* Enable OPL3 & joystick */ return 0; /* ES688 doesn't support MPU401 mode */ } tmp = (hw_config->io_base & 0x0f0) >> 4; if (tmp > 3) { ess_setmixer (devc, 0x40, cfg); return 0; } cfg |= tmp << 3; tmp = 1; /* MPU enabled without interrupts */ /* May be shared: if so the value is -ve */ switch (abs(hw_config->irq)) { case 9: tmp = 0x4; break; case 5: tmp = 0x5; break; case 7: tmp = 0x6; break; case 10: tmp = 0x7; break; default: return 0; } cfg |= tmp << 5; ess_setmixer (devc, 0x40, cfg | 0x03); return 1; } |