/* ********************************************************************** * sblive_mi.c - MIDI UART input HAL for emu10k1 driver * Copyright 1999, 2000 Creative Labs, Inc. * ********************************************************************** * * Date Author Summary of changes * ---- ------ ------------------ * October 20, 1999 Bertrand Lee base code release * November 2, 1999 Alan Cox clean up * ********************************************************************** * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public * License along with this program; if not, write to the Free * Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, * USA. * ********************************************************************** */ #include #include #include "hwaccess.h" #include "8010.h" #include "cardmi.h" #include "irqmgr.h" static int emu10k1_mpuin_callback(struct emu10k1_mpuin *card_mpuin, u32 msg, unsigned long data, u32 bytesvalid); static int sblive_miStateInit(struct emu10k1_mpuin *); static int sblive_miStateEntry(struct emu10k1_mpuin *, u8); static int sblive_miStateParse(struct emu10k1_mpuin *, u8); static int sblive_miState3Byte(struct emu10k1_mpuin *, u8); static int sblive_miState3ByteKey(struct emu10k1_mpuin *, u8); static int sblive_miState3ByteVel(struct emu10k1_mpuin *, u8); static int sblive_miState2Byte(struct emu10k1_mpuin *, u8); static int sblive_miState2ByteKey(struct emu10k1_mpuin *, u8); static int sblive_miStateSysCommon2(struct emu10k1_mpuin *, u8); static int sblive_miStateSysCommon2Key(struct emu10k1_mpuin *, u8); static int sblive_miStateSysCommon3(struct emu10k1_mpuin *, u8); static int sblive_miStateSysCommon3Key(struct emu10k1_mpuin *, u8); static int sblive_miStateSysCommon3Vel(struct emu10k1_mpuin *, u8); static int sblive_miStateSysExNorm(struct emu10k1_mpuin *, u8); static int sblive_miStateSysReal(struct emu10k1_mpuin *, u8); static struct { int (*Fn) (struct emu10k1_mpuin *, u8); } midistatefn[] = { { sblive_miStateParse}, { sblive_miState3Byte}, /* 0x8n, 0x9n, 0xAn, 0xBn, 0xEn */ { sblive_miState3ByteKey}, /* Byte 1 */ { sblive_miState3ByteVel}, /* Byte 2 */ { sblive_miState2Byte}, /* 0xCn, 0xDn */ { sblive_miState2ByteKey}, /* Byte 1 */ { sblive_miStateSysCommon2}, /* 0xF1 , 0xF3 */ { sblive_miStateSysCommon2Key}, /* 0xF1 , 0xF3, Byte 1 */ { sblive_miStateSysCommon3}, /* 0xF2 */ { sblive_miStateSysCommon3Key}, /* 0xF2 , Byte 1 */ { sblive_miStateSysCommon3Vel}, /* 0xF2 , Byte 2 */ { sblive_miStateSysExNorm}, /* 0xF0, 0xF7, Normal mode */ { sblive_miStateSysReal} /* 0xF4 - 0xF6 ,0xF8 - 0xFF */ }; /* Installs the IRQ handler for the MPU in port */ /* and initialize parameters */ int emu10k1_mpuin_open(struct emu10k1_card *card, struct midi_openinfo *openinfo) { struct emu10k1_mpuin *card_mpuin = card->mpuin; DPF(2, "emu10k1_mpuin_open\n"); if (!(card_mpuin->status & FLAGS_AVAILABLE)) return -1; /* Copy open info and mark channel as in use */ card_mpuin->openinfo = *openinfo; card_mpuin->status &= ~FLAGS_AVAILABLE; /* clear */ card_mpuin->status |= FLAGS_READY; /* set */ card_mpuin->status &= ~FLAGS_MIDM_STARTED; /* clear */ card_mpuin->firstmidiq = NULL; card_mpuin->lastmidiq = NULL; card_mpuin->qhead = 0; card_mpuin->qtail = 0; sblive_miStateInit(card_mpuin); emu10k1_mpu_reset(card); emu10k1_mpu_acquire(card); return 0; } int emu10k1_mpuin_close(struct emu10k1_card *card) { struct emu10k1_mpuin *card_mpuin = card->mpuin; DPF(2, "emu10k1_mpuin_close()\n"); /* Check if there are pending input SysEx buffers */ if (card_mpuin->firstmidiq != NULL) { ERROR(); return -1; } /* Disable RX interrupt */ emu10k1_irq_disable(card, card->is_audigy ? A_INTE_MIDIRXENABLE : INTE_MIDIRXENABLE); emu10k1_mpu_release(card); card_mpuin->status |= FLAGS_AVAILABLE; /* set */ card_mpuin->status &= ~FLAGS_MIDM_STARTED; /* clear */ return 0; } /* Adds MIDI buffer to local queue list */ int emu10k1_mpuin_add_buffer(struct emu10k1_mpuin *card_mpuin, struct midi_hdr *midihdr) { struct midi_queue *midiq; unsigned long flags; DPF(2, "emu10k1_mpuin_add_buffer()\n"); /* Update MIDI buffer flags */ midihdr->flags |= MIDIBUF_INQUEUE; /* set */ midihdr->flags &= ~MIDIBUF_DONE; /* clear */ if ((midiq = (struct midi_queue *) kmalloc(sizeof(struct midi_queue), GFP_ATOMIC)) == NULL) { /* Message lost */ return -1; } midiq->next = NULL; midiq->qtype = 1; midiq->length = midihdr->bufferlength; midiq->sizeLeft = midihdr->bufferlength; midiq->midibyte = midihdr->data; midiq->refdata = (unsigned long) midihdr; spin_lock_irqsave(&card_mpuin->lock, flags); if (card_mpuin->firstmidiq == NULL) { card_mpuin->firstmidiq = midiq; card_mpuin->lastmidiq = midiq; } else { (card_mpuin->lastmidiq)->next = midiq; card_mpuin->lastmidiq = midiq; } spin_unlock_irqrestore(&card_mpuin->lock, flags); return 0; } /* First set the Time Stamp if MIDI IN has not started. */ /* Then enable RX Irq. */ int emu10k1_mpuin_start(struct emu10k1_card *card) { struct emu10k1_mpuin *card_mpuin = card->mpuin; u8 dummy; DPF(2, "emu10k1_mpuin_start()\n"); /* Set timestamp if not set */ if (card_mpuin->status & FLAGS_MIDM_STARTED) { DPF(2, "Time Stamp not changed\n"); } else { while (!emu10k1_mpu_read_data(card, &dummy)); card_mpuin->status |= FLAGS_MIDM_STARTED; /* set */ /* Set new time stamp */ card_mpuin->timestart = (jiffies * 1000) / HZ; DPD(2, "New Time Stamp = %d\n", card_mpuin->timestart); card_mpuin->qhead = 0; card_mpuin->qtail = 0; emu10k1_irq_enable(card, card->is_audigy ? A_INTE_MIDIRXENABLE : INTE_MIDIRXENABLE); } return 0; } /* Disable the RX Irq. If a partial recorded buffer */ /* exist, send it up to IMIDI level. */ int emu10k1_mpuin_stop(struct emu10k1_card *card) { struct emu10k1_mpuin *card_mpuin = card->mpuin; struct midi_queue *midiq; unsigned long flags; DPF(2, "emu10k1_mpuin_stop()\n"); emu10k1_irq_disable(card, card->is_audigy ? A_INTE_MIDIRXENABLE : INTE_MIDIRXENABLE); card_mpuin->status &= ~FLAGS_MIDM_STARTED; /* clear */ if (card_mpuin->firstmidiq) { spin_lock_irqsave(&card_mpuin->lock, flags); midiq = card_mpuin->firstmidiq; if (midiq != NULL) { if (midiq->sizeLeft == midiq->length) midiq = NULL; else { card_mpuin->firstmidiq = midiq->next; if (card_mpuin->firstmidiq == NULL) card_mpuin->lastmidiq = NULL; } } spin_unlock_irqrestore(&card_mpuin->lock, flags); if (midiq) { emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INLONGERROR, (unsigned long) midiq, 0); kfree(midiq); } } return 0; } /* Disable the RX Irq. If any buffer */ /* exist, send it up to IMIDI level. */ int emu10k1_mpuin_reset(struct emu10k1_card *card) { struct emu10k1_mpuin *card_mpuin = card->mpuin; struct midi_queue *midiq; DPF(2, "emu10k1_mpuin_reset()\n"); emu10k1_irq_disable(card, card->is_audigy ? A_INTE_MIDIRXENABLE : INTE_MIDIRXENABLE); while (card_mpuin->firstmidiq) { midiq = card_mpuin->firstmidiq; card_mpuin->firstmidiq = midiq->next; if (midiq->sizeLeft == midiq->length) emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INLONGDATA, (unsigned long) midiq, 0); else emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INLONGERROR, (unsigned long) midiq, 0); kfree(midiq); } card_mpuin->lastmidiq = NULL; card_mpuin->status &= ~FLAGS_MIDM_STARTED; return 0; } /* Passes the message with the data back to the client */ /* via IRQ & DPC callbacks to Ring 3 */ static int emu10k1_mpuin_callback(struct emu10k1_mpuin *card_mpuin, u32 msg, unsigned long data, u32 bytesvalid) { unsigned long timein; struct midi_queue *midiq; unsigned long callback_msg[3]; struct midi_hdr *midihdr; /* Called during ISR. The data & code touched are: * 1. card_mpuin * 2. The function to be called */ timein = card_mpuin->timein; if (card_mpuin->timestart <= timein) callback_msg[0] = timein - card_mpuin->timestart; else callback_msg[0] = (~0x0L - card_mpuin->timestart) + timein; if (msg == ICARDMIDI_INDATA || msg == ICARDMIDI_INDATAERROR) { callback_msg[1] = data; callback_msg[2] = bytesvalid; DPD(2, "emu10k1_mpuin_callback: midimsg = %#lx\n", data); } else { midiq = (struct midi_queue *) data; midihdr = (struct midi_hdr *) midiq->refdata; callback_msg[1] = midiq->length - midiq->sizeLeft; callback_msg[2] = midiq->refdata; midihdr->flags &= ~MIDIBUF_INQUEUE; midihdr->flags |= MIDIBUF_DONE; midihdr->bytesrecorded = midiq->length - midiq->sizeLeft; } /* Notify client that Sysex buffer has been sent */ emu10k1_midi_callback(msg, card_mpuin->openinfo.refdata, callback_msg); return 0; } void emu10k1_mpuin_bh(unsigned long refdata) { u8 data; unsigned idx; struct emu10k1_mpuin *card_mpuin = (struct emu10k1_mpuin *) refdata; unsigned long flags; while (card_mpuin->qhead != card_mpuin->qtail) { spin_lock_irqsave(&card_mpuin->lock, flags); idx = card_mpuin->qhead; data = card_mpuin->midiq[idx].data; card_mpuin->timein = card_mpuin->midiq[idx].timein; idx = (idx + 1) % MIDIIN_MAX_BUFFER_SIZE; card_mpuin->qhead = idx; spin_unlock_irqrestore(&card_mpuin->lock, flags); sblive_miStateEntry(card_mpuin, data); } return; } /* IRQ callback handler routine for the MPU in port */ int emu10k1_mpuin_irqhandler(struct emu10k1_card *card) { unsigned idx; unsigned count; u8 MPUIvalue; struct emu10k1_mpuin *card_mpuin = card->mpuin; /* IRQ service routine. The data and code touched are: * 1. card_mpuin */ count = 0; idx = card_mpuin->qtail; while (1) { if (emu10k1_mpu_read_data(card, &MPUIvalue) < 0) { break; } else { ++count; card_mpuin->midiq[idx].data = MPUIvalue; card_mpuin->midiq[idx].timein = (jiffies * 1000) / HZ; idx = (idx + 1) % MIDIIN_MAX_BUFFER_SIZE; } } if (count) { card_mpuin->qtail = idx; tasklet_hi_schedule(&card_mpuin->tasklet); } return 0; } /*****************************************************************************/ /* Supporting functions for Midi-In Interpretation State Machine */ /*****************************************************************************/ /* FIXME: This should be a macro */ static int sblive_miStateInit(struct emu10k1_mpuin *card_mpuin) { card_mpuin->status = 0; /* For MIDI running status */ card_mpuin->fstatus = 0; /* For 0xFn status only */ card_mpuin->curstate = STIN_PARSE; card_mpuin->laststate = STIN_PARSE; card_mpuin->data = 0; card_mpuin->timestart = 0; card_mpuin->timein = 0; return 0; } /* FIXME: This should be a macro */ static int sblive_miStateEntry(struct emu10k1_mpuin *card_mpuin, u8 data) { return midistatefn[card_mpuin->curstate].Fn(card_mpuin, data); } static int sblive_miStateParse(struct emu10k1_mpuin *card_mpuin, u8 data) { switch (data & 0xf0) { case 0x80: case 0x90: case 0xA0: case 0xB0: case 0xE0: card_mpuin->curstate = STIN_3BYTE; break; case 0xC0: case 0xD0: card_mpuin->curstate = STIN_2BYTE; break; case 0xF0: /* System messages do not affect the previous running status! */ switch (data & 0x0f) { case 0x0: card_mpuin->laststate = card_mpuin->curstate; card_mpuin->curstate = STIN_SYS_EX_NORM; if (card_mpuin->firstmidiq) { struct midi_queue *midiq; midiq = card_mpuin->firstmidiq; *midiq->midibyte = data; --midiq->sizeLeft; ++midiq->midibyte; } return CTSTATUS_NEXT_BYTE; case 0x7: emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INDATAERROR, 0xf7, 0); return -1; case 0x2: card_mpuin->laststate = card_mpuin->curstate; card_mpuin->curstate = STIN_SYS_COMMON_3; break; case 0x1: case 0x3: card_mpuin->laststate = card_mpuin->curstate; card_mpuin->curstate = STIN_SYS_COMMON_2; break; default: /* includes 0xF4 - 0xF6, 0xF8 - 0xFF */ return midistatefn[STIN_SYS_REAL].Fn(card_mpuin, data); } break; default: DPF(2, "BUG: default case hit\n"); return -1; } return midistatefn[card_mpuin->curstate].Fn(card_mpuin, data); } static int sblive_miState3Byte(struct emu10k1_mpuin *card_mpuin, u8 data) { u8 temp = data & 0xf0; if (temp < 0x80) { return midistatefn[STIN_3BYTE_KEY].Fn(card_mpuin, data); } else if (temp <= 0xe0 && temp != 0xc0 && temp != 0xd0) { card_mpuin->status = data; card_mpuin->curstate = STIN_3BYTE_KEY; return CTSTATUS_NEXT_BYTE; } return midistatefn[STIN_PARSE].Fn(card_mpuin, data); } static int sblive_miState3ByteKey(struct emu10k1_mpuin *card_mpuin, u8 data) /* byte 1 */ { unsigned long tmp; if (data > 0x7f) { /* Real-time messages check */ if (data > 0xf7) return midistatefn[STIN_SYS_REAL].Fn(card_mpuin, data); /* Invalid data! */ DPF(2, "Invalid data!\n"); card_mpuin->curstate = STIN_PARSE; tmp = ((unsigned long) data) << 8; tmp |= (unsigned long) card_mpuin->status; emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INDATAERROR, tmp, 0); return -1; } card_mpuin->data = data; card_mpuin->curstate = STIN_3BYTE_VEL; return CTSTATUS_NEXT_BYTE; } static int sblive_miState3ByteVel(struct emu10k1_mpuin *card_mpuin, u8 data) /* byte 2 */ { unsigned long tmp; if (data > 0x7f) { /* Real-time messages check */ if (data > 0xf7) return midistatefn[STIN_SYS_REAL].Fn(card_mpuin, data); /* Invalid data! */ DPF(2, "Invalid data!\n"); card_mpuin->curstate = STIN_PARSE; tmp = ((unsigned long) data) << 8; tmp |= card_mpuin->data; tmp = tmp << 8; tmp |= (unsigned long) card_mpuin->status; emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INDATAERROR, tmp, 0); return -1; } card_mpuin->curstate = STIN_3BYTE; tmp = (unsigned long) data; tmp = tmp << 8; tmp |= (unsigned long) card_mpuin->data; tmp = tmp << 8; tmp |= (unsigned long) card_mpuin->status; emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INDATA, tmp, 3); return 0; } static int sblive_miState2Byte(struct emu10k1_mpuin *card_mpuin, u8 data) { u8 temp = data & 0xf0; if ((temp == 0xc0) || (temp == 0xd0)) { card_mpuin->status = data; card_mpuin->curstate = STIN_2BYTE_KEY; return CTSTATUS_NEXT_BYTE; } if (temp < 0x80) return midistatefn[STIN_2BYTE_KEY].Fn(card_mpuin, data); return midistatefn[STIN_PARSE].Fn(card_mpuin, data); } static int sblive_miState2ByteKey(struct emu10k1_mpuin *card_mpuin, u8 data) /* byte 1 */ { unsigned long tmp; if (data > 0x7f) { /* Real-time messages check */ if (data > 0xf7) return midistatefn[STIN_SYS_REAL].Fn(card_mpuin, data); /* Invalid data! */ DPF(2, "Invalid data!\n"); card_mpuin->curstate = STIN_PARSE; tmp = (unsigned long) data; tmp = tmp << 8; tmp |= (unsigned long) card_mpuin->status; emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INDATAERROR, tmp, 0); return -1; } card_mpuin->curstate = STIN_2BYTE; tmp = (unsigned long) data; tmp = tmp << 8; tmp |= (unsigned long) card_mpuin->status; emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INDATA, tmp, 2); return 0; } static int sblive_miStateSysCommon2(struct emu10k1_mpuin *card_mpuin, u8 data) { card_mpuin->fstatus = data; card_mpuin->curstate = STIN_SYS_COMMON_2_KEY; return CTSTATUS_NEXT_BYTE; } static int sblive_miStateSysCommon2Key(struct emu10k1_mpuin *card_mpuin, u8 data) /* byte 1 */ { unsigned long tmp; if (data > 0x7f) { /* Real-time messages check */ if (data > 0xf7) return midistatefn[STIN_SYS_REAL].Fn(card_mpuin, data); /* Invalid data! */ DPF(2, "Invalid data!\n"); card_mpuin->curstate = card_mpuin->laststate; tmp = (unsigned long) data; tmp = tmp << 8; tmp |= (unsigned long) card_mpuin->fstatus; emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INDATAERROR, tmp, 0); return -1; } card_mpuin->curstate = card_mpuin->laststate; tmp = (unsigned long) data; tmp = tmp << 8; tmp |= (unsigned long) card_mpuin->fstatus; emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INDATA, tmp, 2); return 0; } static int sblive_miStateSysCommon3(struct emu10k1_mpuin *card_mpuin, u8 data) { card_mpuin->fstatus = data; card_mpuin->curstate = STIN_SYS_COMMON_3_KEY; return CTSTATUS_NEXT_BYTE; } static int sblive_miStateSysCommon3Key(struct emu10k1_mpuin *card_mpuin, u8 data) /* byte 1 */ { unsigned long tmp; if (data > 0x7f) { /* Real-time messages check */ if (data > 0xf7) return midistatefn[STIN_SYS_REAL].Fn(card_mpuin, data); /* Invalid data! */ DPF(2, "Invalid data!\n"); card_mpuin->curstate = card_mpuin->laststate; tmp = (unsigned long) data; tmp = tmp << 8; tmp |= (unsigned long) card_mpuin->fstatus; emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INDATAERROR, tmp, 0); return -1; } card_mpuin->data = data; card_mpuin->curstate = STIN_SYS_COMMON_3_VEL; return CTSTATUS_NEXT_BYTE; } static int sblive_miStateSysCommon3Vel(struct emu10k1_mpuin *card_mpuin, u8 data) /* byte 2 */ { unsigned long tmp; if (data > 0x7f) { /* Real-time messages check */ if (data > 0xf7) return midistatefn[STIN_SYS_REAL].Fn(card_mpuin, data); /* Invalid data! */ DPF(2, "Invalid data!\n"); card_mpuin->curstate = card_mpuin->laststate; tmp = (unsigned long) data; tmp = tmp << 8; tmp |= (unsigned long) card_mpuin->data; tmp = tmp << 8; tmp |= (unsigned long) card_mpuin->fstatus; emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INDATAERROR, tmp, 0); return -1; } card_mpuin->curstate = card_mpuin->laststate; tmp = (unsigned long) data; tmp = tmp << 8; tmp |= (unsigned long) card_mpuin->data; tmp = tmp << 8; tmp |= (unsigned long) card_mpuin->fstatus; emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INDATA, tmp, 3); return 0; } static int sblive_miStateSysExNorm(struct emu10k1_mpuin *card_mpuin, u8 data) { unsigned long flags; if ((data > 0x7f) && (data != 0xf7)) { /* Real-time messages check */ if (data > 0xf7) return midistatefn[STIN_SYS_REAL].Fn(card_mpuin, data); /* Invalid Data! */ DPF(2, "Invalid data!\n"); card_mpuin->curstate = card_mpuin->laststate; if (card_mpuin->firstmidiq) { struct midi_queue *midiq; midiq = card_mpuin->firstmidiq; *midiq->midibyte = data; --midiq->sizeLeft; ++midiq->midibyte; spin_lock_irqsave(&card_mpuin->lock, flags); card_mpuin->firstmidiq = midiq->next; if (card_mpuin->firstmidiq == NULL) card_mpuin->lastmidiq = NULL; spin_unlock_irqrestore(&card_mpuin->lock, flags); emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INLONGERROR, (unsigned long) midiq, 0); kfree(midiq); } return -1; } if (card_mpuin->firstmidiq) { struct midi_queue *midiq; midiq = card_mpuin->firstmidiq; *midiq->midibyte = data; --midiq->sizeLeft; ++midiq->midibyte; } if (data == 0xf7) { /* End of Sysex buffer */ /* Send down the buffer */ card_mpuin->curstate = card_mpuin->laststate; if (card_mpuin->firstmidiq) { struct midi_queue *midiq; midiq = card_mpuin->firstmidiq; spin_lock_irqsave(&card_mpuin->lock, flags); card_mpuin->firstmidiq = midiq->next; if (card_mpuin->firstmidiq == NULL) card_mpuin->lastmidiq = NULL; spin_unlock_irqrestore(&card_mpuin->lock, flags); emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INLONGDATA, (unsigned long) midiq, 0); kfree(midiq); } return 0; } if (card_mpuin->firstmidiq) { struct midi_queue *midiq; midiq = card_mpuin->firstmidiq; if (midiq->sizeLeft == 0) { /* Special case */ spin_lock_irqsave(&card_mpuin->lock, flags); card_mpuin->firstmidiq = midiq->next; if (card_mpuin->firstmidiq == NULL) card_mpuin->lastmidiq = NULL; spin_unlock_irqrestore(&card_mpuin->lock, flags); emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INLONGDATA, (unsigned long) midiq, 0); kfree(midiq); return CTSTATUS_NEXT_BYTE; } } return CTSTATUS_NEXT_BYTE; } static int sblive_miStateSysReal(struct emu10k1_mpuin *card_mpuin, u8 data) { emu10k1_mpuin_callback(card_mpuin, ICARDMIDI_INDATA, data, 1); return CTSTATUS_NEXT_BYTE; }