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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [drivers/] [sound/] [wf_midi.c] - Rev 1765
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/* * sound/wf_midi.c * * The low level driver for the WaveFront ICS2115 MIDI interface(s) * Note that there is also an MPU-401 emulation (actually, a UART-401 * emulation) on the CS4232 on the Tropez Plus. This code has nothing * to do with that interface at all. * * The interface is essentially just a UART-401, but is has the * interesting property of supporting what Turtle Beach called * "Virtual MIDI" mode. In this mode, there are effectively *two* * MIDI buses accessible via the interface, one that is routed * solely to/from the external WaveFront synthesizer and the other * corresponding to the pin/socket connector used to link external * MIDI devices to the board. * * This driver fully supports this mode, allowing two distinct * midi devices (/dev/midiNN and /dev/midiNN+1) to be used * completely independently, giving 32 channels of MIDI routing, * 16 to the WaveFront synth and 16 to the external MIDI bus. * * Switching between the two is accomplished externally by the driver * using the two otherwise unused MIDI bytes. See the code for more details. * * NOTE: VIRTUAL MIDI MODE IS ON BY DEFAULT (see wavefront.c) * * The main reason to turn off Virtual MIDI mode is when you want to * tightly couple the WaveFront synth with an external MIDI * device. You won't be able to distinguish the source of any MIDI * data except via SysEx ID, but thats probably OK, since for the most * part, the WaveFront won't be sending any MIDI data at all. * * The main reason to turn on Virtual MIDI Mode is to provide two * completely independent 16-channel MIDI buses, one to the * WaveFront and one to any external MIDI devices. Given the 32 * voice nature of the WaveFront, its pretty easy to find a use * for all 16 channels driving just that synth. * */ /* * Copyright (C) by Paul Barton-Davis 1998 * Some portions of this file are derived from work that is: * * CopyriGht (C) by Hannu Savolainen 1993-1996 * * USS/Lite for Linux is distributed under the GNU GENERAL PUBLIC LICENSE (GPL) * Version 2 (June 1991). See the "COPYING" file distributed with this software * for more info. */ #include <linux/init.h> #include "sound_config.h" #include <linux/wavefront.h> #ifdef MODULE struct wf_mpu_config { int base; #define DATAPORT(d) (d)->base #define COMDPORT(d) (d)->base+1 #define STATPORT(d) (d)->base+1 int irq; int opened; int devno; int synthno; int mode; #define MODE_MIDI 1 #define MODE_SYNTH 2 void (*inputintr) (int dev, unsigned char data); char isvirtual; /* do virtual I/O stuff */ }; static struct wf_mpu_config devs[2]; static struct wf_mpu_config *phys_dev = &devs[0]; static struct wf_mpu_config *virt_dev = &devs[1]; static void start_uart_mode (void); #define OUTPUT_READY 0x40 #define INPUT_AVAIL 0x80 #define MPU_ACK 0xFE #define UART_MODE_ON 0x3F static inline int wf_mpu_status (void) { return inb (STATPORT (phys_dev)); } static inline int input_avail (void) { return !(wf_mpu_status() & INPUT_AVAIL); } static inline int output_ready (void) { return !(wf_mpu_status() & OUTPUT_READY); } static inline int read_data (void) { return inb (DATAPORT (phys_dev)); } static inline void write_data (unsigned char byte) { outb (byte, DATAPORT (phys_dev)); } /* * States for the input scanner (should be in dev_table.h) */ #define MST_SYSMSG 100 /* System message (sysx etc). */ #define MST_MTC 102 /* Midi Time Code (MTC) qframe msg */ #define MST_SONGSEL 103 /* Song select */ #define MST_SONGPOS 104 /* Song position pointer */ #define MST_TIMED 105 /* Leading timing byte rcvd */ /* buffer space check for input scanner */ #define BUFTEST(mi) if (mi->m_ptr >= MI_MAX || mi->m_ptr < 0) \ {printk(KERN_ERR "WF-MPU: Invalid buffer pointer %d/%d, s=%d\n", \ mi->m_ptr, mi->m_left, mi->m_state);mi->m_ptr--;} static unsigned char len_tab[] = /* # of data bytes following a status */ { 2, /* 8x */ 2, /* 9x */ 2, /* Ax */ 2, /* Bx */ 1, /* Cx */ 1, /* Dx */ 2, /* Ex */ 0 /* Fx */ }; static int wf_mpu_input_scanner (int devno, int synthdev, unsigned char midic) { struct midi_input_info *mi = &midi_devs[devno]->in_info; switch (mi->m_state) { case MST_INIT: switch (midic) { case 0xf8: /* Timer overflow */ break; case 0xfc: break; case 0xfd: /* XXX do something useful with this. If there is an external MIDI timer (e.g. a hardware sequencer, a useful timer can be derived ... For now, no timer support. */ break; case 0xfe: return MPU_ACK; break; case 0xf0: case 0xf1: case 0xf2: case 0xf3: case 0xf4: case 0xf5: case 0xf6: case 0xf7: break; case 0xf9: break; case 0xff: mi->m_state = MST_SYSMSG; break; default: if (midic <= 0xef) { mi->m_state = MST_TIMED; } else printk (KERN_ERR "<MPU: Unknown event %02x> ", midic); } break; case MST_TIMED: { int msg = ((int) (midic & 0xf0) >> 4); mi->m_state = MST_DATA; if (msg < 8) { /* Data byte */ msg = ((int) (mi->m_prev_status & 0xf0) >> 4); msg -= 8; mi->m_left = len_tab[msg] - 1; mi->m_ptr = 2; mi->m_buf[0] = mi->m_prev_status; mi->m_buf[1] = midic; if (mi->m_left <= 0) { mi->m_state = MST_INIT; do_midi_msg (synthdev, mi->m_buf, mi->m_ptr); mi->m_ptr = 0; } } else if (msg == 0xf) { /* MPU MARK */ mi->m_state = MST_INIT; switch (midic) { case 0xf8: break; case 0xf9: break; case 0xfc: break; default: break; } } else { mi->m_prev_status = midic; msg -= 8; mi->m_left = len_tab[msg]; mi->m_ptr = 1; mi->m_buf[0] = midic; if (mi->m_left <= 0) { mi->m_state = MST_INIT; do_midi_msg (synthdev, mi->m_buf, mi->m_ptr); mi->m_ptr = 0; } } } break; case MST_SYSMSG: switch (midic) { case 0xf0: mi->m_state = MST_SYSEX; break; case 0xf1: mi->m_state = MST_MTC; break; case 0xf2: mi->m_state = MST_SONGPOS; mi->m_ptr = 0; break; case 0xf3: mi->m_state = MST_SONGSEL; break; case 0xf6: mi->m_state = MST_INIT; /* * Real time messages */ case 0xf8: /* midi clock */ mi->m_state = MST_INIT; /* XXX need ext MIDI timer support */ break; case 0xfA: mi->m_state = MST_INIT; /* XXX need ext MIDI timer support */ break; case 0xFB: mi->m_state = MST_INIT; /* XXX need ext MIDI timer support */ break; case 0xFC: mi->m_state = MST_INIT; /* XXX need ext MIDI timer support */ break; case 0xFE: /* active sensing */ mi->m_state = MST_INIT; break; case 0xff: mi->m_state = MST_INIT; break; default: printk (KERN_ERR "unknown MIDI sysmsg %0x\n", midic); mi->m_state = MST_INIT; } break; case MST_MTC: mi->m_state = MST_INIT; break; case MST_SYSEX: if (midic == 0xf7) { mi->m_state = MST_INIT; } else { /* XXX fix me */ } break; case MST_SONGPOS: BUFTEST (mi); mi->m_buf[mi->m_ptr++] = midic; if (mi->m_ptr == 2) { mi->m_state = MST_INIT; mi->m_ptr = 0; /* XXX need ext MIDI timer support */ } break; case MST_DATA: BUFTEST (mi); mi->m_buf[mi->m_ptr++] = midic; if ((--mi->m_left) <= 0) { mi->m_state = MST_INIT; do_midi_msg (synthdev, mi->m_buf, mi->m_ptr); mi->m_ptr = 0; } break; default: printk (KERN_ERR "Bad state %d ", mi->m_state); mi->m_state = MST_INIT; } return 1; } void wf_mpuintr (int irq, void *dev_id, struct pt_regs *dummy) { struct wf_mpu_config *physical_dev = dev_id; static struct wf_mpu_config *input_dev = 0; struct midi_input_info *mi = &midi_devs[physical_dev->devno]->in_info; int n; if (!input_avail()) { /* not for us */ return; } if (mi->m_busy) return; mi->m_busy = 1; sti (); if (!input_dev) { input_dev = physical_dev; } n = 50; /* XXX why ? */ do { unsigned char c = read_data (); if (phys_dev->isvirtual) { if (c == WF_EXTERNAL_SWITCH) { input_dev = virt_dev; continue; } else if (c == WF_INTERNAL_SWITCH) { input_dev = phys_dev; continue; } /* else just leave it as it is */ } else { input_dev = phys_dev; } if (input_dev->mode == MODE_SYNTH) { wf_mpu_input_scanner (input_dev->devno, input_dev->synthno, c); } else if (input_dev->opened & OPEN_READ) { if (input_dev->inputintr) { input_dev->inputintr (input_dev->devno, c); } } } while (input_avail() && n-- > 0); mi->m_busy = 0; } static int wf_mpu_open (int dev, int mode, void (*input) (int dev, unsigned char data), void (*output) (int dev) ) { struct wf_mpu_config *devc; if (dev < 0 || dev >= num_midis || midi_devs[dev]==NULL) return -(ENXIO); if (phys_dev->devno == dev) { devc = phys_dev; } else if (phys_dev->isvirtual && virt_dev->devno == dev) { devc = virt_dev; } else { printk (KERN_ERR "WF-MPU: unknown device number %d\n", dev); return -(EINVAL); } if (devc->opened) { return -(EBUSY); } devc->mode = MODE_MIDI; devc->opened = mode; devc->synthno = 0; devc->inputintr = input; return 0; } static void wf_mpu_close (int dev) { struct wf_mpu_config *devc; if (dev < 0 || dev >= num_midis || midi_devs[dev]==NULL) return; if (phys_dev->devno == dev) { devc = phys_dev; } else if (phys_dev->isvirtual && virt_dev->devno == dev) { devc = virt_dev; } else { printk (KERN_ERR "WF-MPU: unknown device number %d\n", dev); return; } devc->mode = 0; devc->inputintr = NULL; devc->opened = 0; } static int wf_mpu_out (int dev, unsigned char midi_byte) { int timeout; unsigned long flags; static int lastoutdev = -1; unsigned char switchch; if (phys_dev->isvirtual && lastoutdev != dev) { if (dev == phys_dev->devno) { switchch = WF_INTERNAL_SWITCH; } else if (dev == virt_dev->devno) { switchch = WF_EXTERNAL_SWITCH; } else { printk (KERN_ERR "WF-MPU: bad device number %d", dev); return (0); } /* XXX fix me */ for (timeout = 30000; timeout > 0 && !output_ready (); timeout--); save_flags (flags); cli (); if (!output_ready ()) { printk (KERN_WARNING "WF-MPU: Send switch " "byte timeout\n"); restore_flags (flags); return 0; } write_data (switchch); restore_flags (flags); } lastoutdev = dev; /* * Sometimes it takes about 30000 loops before the output becomes ready * (After reset). Normally it takes just about 10 loops. */ /* XXX fix me */ for (timeout = 30000; timeout > 0 && !output_ready (); timeout--); save_flags (flags); cli (); if (!output_ready ()) { printk (KERN_WARNING "WF-MPU: Send data timeout\n"); restore_flags (flags); return 0; } write_data (midi_byte); restore_flags (flags); return 1; } static inline int wf_mpu_start_read (int dev) { return 0; } static inline int wf_mpu_end_read (int dev) { return 0; } static int wf_mpu_ioctl (int dev, unsigned cmd, caddr_t arg) { printk (KERN_WARNING "WF-MPU: Intelligent mode not supported by hardware.\n"); return -(EINVAL); } static int wf_mpu_buffer_status (int dev) { return 0; } static struct synth_operations wf_mpu_synth_operations[2]; static struct midi_operations wf_mpu_midi_operations[2]; static struct midi_operations wf_mpu_midi_proto = { owner: THIS_MODULE, info: {"WF-MPU MIDI", 0, MIDI_CAP_MPU401, SNDCARD_MPU401}, in_info: {0}, /* in_info */ open: wf_mpu_open, close: wf_mpu_close, ioctl: wf_mpu_ioctl, outputc: wf_mpu_out, start_read: wf_mpu_start_read, end_read: wf_mpu_end_read, buffer_status: wf_mpu_buffer_status, }; static struct synth_info wf_mpu_synth_info_proto = {"WaveFront MPU-401 interface", 0, SYNTH_TYPE_MIDI, MIDI_TYPE_MPU401, 0, 128, 0, 128, SYNTH_CAP_INPUT}; static struct synth_info wf_mpu_synth_info[2]; static int wf_mpu_synth_ioctl (int dev, unsigned int cmd, caddr_t arg) { int midi_dev; int index; midi_dev = synth_devs[dev]->midi_dev; if (midi_dev < 0 || midi_dev > num_midis || midi_devs[midi_dev]==NULL) return -(ENXIO); if (midi_dev == phys_dev->devno) { index = 0; } else if (phys_dev->isvirtual && midi_dev == virt_dev->devno) { index = 1; } else { return -(EINVAL); } switch (cmd) { case SNDCTL_SYNTH_INFO: if(copy_to_user (&((char *) arg)[0], &wf_mpu_synth_info[index], sizeof (struct synth_info))) return -EFAULT; return 0; case SNDCTL_SYNTH_MEMAVL: return 0x7fffffff; default: return -EINVAL; } } static int wf_mpu_synth_open (int dev, int mode) { int midi_dev; struct wf_mpu_config *devc; midi_dev = synth_devs[dev]->midi_dev; if (midi_dev < 0 || midi_dev > num_midis || midi_devs[midi_dev]==NULL) { return -(ENXIO); } if (phys_dev->devno == midi_dev) { devc = phys_dev; } else if (phys_dev->isvirtual && virt_dev->devno == midi_dev) { devc = virt_dev; } else { printk (KERN_ERR "WF-MPU: unknown device number %d\n", dev); return -(EINVAL); } if (devc->opened) { return -(EBUSY); } devc->mode = MODE_SYNTH; devc->synthno = dev; devc->opened = mode; devc->inputintr = NULL; return 0; } static void wf_mpu_synth_close (int dev) { int midi_dev; struct wf_mpu_config *devc; midi_dev = synth_devs[dev]->midi_dev; if (phys_dev->devno == midi_dev) { devc = phys_dev; } else if (phys_dev->isvirtual && virt_dev->devno == midi_dev) { devc = virt_dev; } else { printk (KERN_ERR "WF-MPU: unknown device number %d\n", dev); return; } devc->inputintr = NULL; devc->opened = 0; devc->mode = 0; } #define _MIDI_SYNTH_C_ #define MIDI_SYNTH_NAME "WaveFront (MIDI)" #define MIDI_SYNTH_CAPS SYNTH_CAP_INPUT #include "midi_synth.h" static struct synth_operations wf_mpu_synth_proto = { owner: THIS_MODULE, id: "WaveFront (ICS2115)", info: NULL, /* info field, filled in during configuration */ midi_dev: 0, /* MIDI dev XXX should this be -1 ? */ synth_type: SYNTH_TYPE_MIDI, synth_subtype: SAMPLE_TYPE_WAVEFRONT, open: wf_mpu_synth_open, close: wf_mpu_synth_close, ioctl: wf_mpu_synth_ioctl, kill_note: midi_synth_kill_note, start_note: midi_synth_start_note, set_instr: midi_synth_set_instr, reset: midi_synth_reset, hw_control: midi_synth_hw_control, load_patch: midi_synth_load_patch, aftertouch: midi_synth_aftertouch, controller: midi_synth_controller, panning: midi_synth_panning, bender: midi_synth_bender, setup_voice: midi_synth_setup_voice, send_sysex: midi_synth_send_sysex }; static int config_wf_mpu (struct wf_mpu_config *dev) { int is_external; char *name; int index; if (dev == phys_dev) { name = "WaveFront internal MIDI"; is_external = 0; index = 0; memcpy ((char *) &wf_mpu_synth_operations[index], (char *) &wf_mpu_synth_proto, sizeof (struct synth_operations)); } else { name = "WaveFront external MIDI"; is_external = 1; index = 1; /* no synth operations for an external MIDI interface */ } memcpy ((char *) &wf_mpu_synth_info[dev->devno], (char *) &wf_mpu_synth_info_proto, sizeof (struct synth_info)); strcpy (wf_mpu_synth_info[index].name, name); wf_mpu_synth_operations[index].midi_dev = dev->devno; wf_mpu_synth_operations[index].info = &wf_mpu_synth_info[index]; memcpy ((char *) &wf_mpu_midi_operations[index], (char *) &wf_mpu_midi_proto, sizeof (struct midi_operations)); if (is_external) { wf_mpu_midi_operations[index].converter = NULL; } else { wf_mpu_midi_operations[index].converter = &wf_mpu_synth_operations[index]; } strcpy (wf_mpu_midi_operations[index].info.name, name); midi_devs[dev->devno] = &wf_mpu_midi_operations[index]; midi_devs[dev->devno]->in_info.m_busy = 0; midi_devs[dev->devno]->in_info.m_state = MST_INIT; midi_devs[dev->devno]->in_info.m_ptr = 0; midi_devs[dev->devno]->in_info.m_left = 0; midi_devs[dev->devno]->in_info.m_prev_status = 0; devs[index].opened = 0; devs[index].mode = 0; return (0); } int virtual_midi_enable (void) { if ((virt_dev->devno < 0) && (virt_dev->devno = sound_alloc_mididev()) == -1) { printk (KERN_ERR "WF-MPU: too many midi devices detected\n"); return -1; } config_wf_mpu (virt_dev); phys_dev->isvirtual = 1; return virt_dev->devno; } int virtual_midi_disable (void) { unsigned long flags; save_flags (flags); cli(); wf_mpu_close (virt_dev->devno); /* no synth on virt_dev, so no need to call wf_mpu_synth_close() */ phys_dev->isvirtual = 0; restore_flags (flags); return 0; } int __init detect_wf_mpu (int irq, int io_base) { if (check_region (io_base, 2)) { printk (KERN_WARNING "WF-MPU: I/O port %x already in use.\n", io_base); return -1; } phys_dev->base = io_base; phys_dev->irq = irq; phys_dev->devno = -1; virt_dev->devno = -1; return 0; } int __init install_wf_mpu (void) { if ((phys_dev->devno = sound_alloc_mididev()) < 0){ printk (KERN_ERR "WF-MPU: Too many MIDI devices detected.\n"); return -1; } request_region (phys_dev->base, 2, "wavefront midi"); phys_dev->isvirtual = 0; if (config_wf_mpu (phys_dev)) { printk (KERN_WARNING "WF-MPU: configuration for MIDI device %d failed\n", phys_dev->devno); sound_unload_mididev (phys_dev->devno); } /* OK, now we're configured to handle an interrupt ... */ if (request_irq (phys_dev->irq, wf_mpuintr, SA_INTERRUPT|SA_SHIRQ, "wavefront midi", phys_dev) < 0) { printk (KERN_ERR "WF-MPU: Failed to allocate IRQ%d\n", phys_dev->irq); return -1; } /* This being a WaveFront (ICS-2115) emulated MPU-401, we have to switch it into UART (dumb) mode, because otherwise, it won't do anything at all. */ start_uart_mode (); return phys_dev->devno; } void uninstall_wf_mpu (void) { release_region (phys_dev->base, 2); free_irq (phys_dev->irq, phys_dev); sound_unload_mididev (phys_dev->devno); if (virt_dev->devno >= 0) { sound_unload_mididev (virt_dev->devno); } } static void start_uart_mode (void) { int ok, i; unsigned long flags; save_flags (flags); cli (); /* XXX fix me */ for (i = 0; i < 30000 && !output_ready (); i++); outb (UART_MODE_ON, COMDPORT(phys_dev)); for (ok = 0, i = 50000; i > 0 && !ok; i--) { if (input_avail ()) { if (read_data () == MPU_ACK) { ok = 1; } } } restore_flags (flags); } #endif