1f5841c8ed
SYSLIB CHANGES: - SEF must be used by every system process and is thereby part of the system library. - The framework provides a receive() interface (sef_receive) for system processes to automatically catch known system even messages and process them. - SEF provides a default behavior for each type of system event, but allows system processes to register callbacks to override the default behavior. - Custom (local to the process) or predefined (provided by SEF) callback implementations can be registered to SEF. - SEF currently includes support for 2 types of system events: 1. SEF Ping. The event occurs every time RS sends a ping to figure out whether a system process is still alive. The default callback implementation provided by SEF is to notify RS back to let it know the process is alive and kicking. 2. SEF Live update. The event occurs every time RS sends a prepare to update message to let a system process know an update is available and to prepare for it. The live update support is very basic for now. SEF only deals with verifying if the prepare state can be supported by the process, dumping the state for debugging purposes, and providing an event-driven programming model to the process to react to state changes check-in when ready to update. - SEF should be extended in the future to integrate support for more types of system events. Ideally, all the cross-cutting concerns should be integrated into SEF to avoid duplicating code and ease extensibility. Examples include: * PM notify messages primarily used at shutdown. * SYSTEM notify messages primarily used for signals. * CLOCK notify messages used for system alarms. * Debug messages. IS could still be in charge of fkey handling but would forward the debug message to the target process (e.g. PM, if the user requested debug information about PM). SEF would then catch the message and do nothing unless the process has registered an appropriate callback to deal with the event. This simplifies the programming model to print debug information, avoids duplicating code, and reduces the effort to print debug information. SYSTEM PROCESSES CHANGES: - Every system process registers SEF callbacks it needs to override the default system behavior and calls sef_startup() right after being started. - sef_startup() does almost nothing now, but will be extended in the future to support callbacks of its own to let RS control and synchronize with every system process at initialization time. - Every system process calls sef_receive() now rather than receive() directly, to let SEF handle predefined system events. RS CHANGES: - RS supports a basic single-component live update protocol now, as follows: * When an update command is issued (via "service update *"), RS notifies the target system process to prepare for a specific update state. * If the process doesn't respond back in time, the update is aborted. * When the process responds back, RS kills it and marks it for refreshing. * The process is then automatically restarted as for a buggy process and can start running again. * Live update is currently prototyped as a controlled failure.
406 lines
11 KiB
C
406 lines
11 KiB
C
/* This file contains the driver for the mixer on
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* a SoundBlaster 16 soundcard.
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*
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* The driver supports the following operations (using message format m2):
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*
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* m_type DEVICE IO_ENDPT COUNT POSITION ADRRESS
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* ----------------------------------------------------------------
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* | DEV_OPEN | device | proc nr | | | |
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* |------------+---------+---------+---------+---------+---------|
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* | DEV_CLOSE | device | proc nr | | | |
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* |------------+---------+---------+---------+---------+---------|
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* | DEV_IOCTL | device | proc nr |func code| | buf_ptr |
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* ----------------------------------------------------------------
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*
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* The file contains one entry point:
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*
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* sb16mixer_task: main entry when system is brought up
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*
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* August 24 2005 Ported driver to user space (Peter Boonstoppel)
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* May 20 1995 Author: Michel R. Prevenier
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*/
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#include "sb16.h"
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_PROTOTYPE(void main, (void));
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FORWARD _PROTOTYPE( int mixer_init, (void));
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FORWARD _PROTOTYPE( int mixer_open, (message *m_ptr));
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FORWARD _PROTOTYPE( int mixer_close, (message *m_ptr));
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FORWARD _PROTOTYPE( int mixer_ioctl, (message *m_ptr));
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FORWARD _PROTOTYPE( int mixer_get, (int reg));
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FORWARD _PROTOTYPE( int get_set_volume, (message *m_ptr, int flag));
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FORWARD _PROTOTYPE( int get_set_input, (message *m_ptr, int flag, int channel));
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FORWARD _PROTOTYPE( int get_set_output, (message *m_ptr, int flag));
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PRIVATE int mixer_avail = 0; /* Mixer exists? */
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#define dprint (void)
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/* SEF functions and variables. */
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FORWARD _PROTOTYPE( void sef_local_startup, (void) );
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/*===========================================================================*
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* main
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*===========================================================================*/
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PUBLIC void main() {
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message mess;
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int err, caller, proc_nr;
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/* SEF local startup. */
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sef_local_startup();
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/* Here is the main loop of the mixer task. It waits for a message, carries
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* it out, and sends a reply.
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*/
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while (TRUE) {
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sef_receive(ANY, &mess);
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caller = mess.m_source;
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proc_nr = mess.IO_ENDPT;
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switch (caller) {
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case HARDWARE: /* Leftover interrupt. */
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continue;
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case FS_PROC_NR: /* The only legitimate caller. */
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break;
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default:
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dprint("sb16: got message from %d\n", caller);
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continue;
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}
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/* Now carry out the work. */
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switch(mess.m_type) {
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case DEV_OPEN: err = mixer_open(&mess); break;
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case DEV_CLOSE: err = mixer_close(&mess); break;
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#ifdef DEV_IOCTL
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case DEV_IOCTL: err = mixer_ioctl(&mess); break;
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#endif
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default: err = EINVAL; break;
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}
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/* Finally, prepare and send the reply message. */
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mess.m_type = TASK_REPLY;
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mess.REP_ENDPT = proc_nr;
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dprint("%d %d", err, OK);
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mess.REP_STATUS = err; /* error code */
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send(caller, &mess); /* send reply to caller */
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}
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}
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/*===========================================================================*
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* sef_local_startup *
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*===========================================================================*/
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PRIVATE void sef_local_startup()
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{
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/* Register live update callbacks. */
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sef_setcb_lu_prepare(sef_cb_lu_prepare_always_ready);
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sef_setcb_lu_state_isvalid(sef_cb_lu_state_isvalid_standard);
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/* Let SEF perform startup. */
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sef_startup();
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}
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/*=========================================================================*
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* mixer_open
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*=========================================================================*/
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PRIVATE int mixer_open(m_ptr)
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message *m_ptr;
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{
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dprint("mixer_open\n");
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/* try to detect the mixer type */
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if (!mixer_avail && mixer_init() != OK) return EIO;
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return OK;
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}
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/*=========================================================================*
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* mixer_close
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*=========================================================================*/
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PRIVATE int mixer_close(m_ptr)
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message *m_ptr;
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{
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dprint("mixer_close\n");
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return OK;
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}
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/*=========================================================================*
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* mixer_ioctl
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*=========================================================================*/
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PRIVATE int mixer_ioctl(m_ptr)
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message *m_ptr;
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{
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int status;
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dprint("mixer: got ioctl %d\n", m_ptr->REQUEST);
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switch(m_ptr->REQUEST) {
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case MIXIOGETVOLUME: status = get_set_volume(m_ptr, 0); break;
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case MIXIOSETVOLUME: status = get_set_volume(m_ptr, 1); break;
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case MIXIOGETINPUTLEFT: status = get_set_input(m_ptr, 0, 0); break;
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case MIXIOGETINPUTRIGHT: status = get_set_input(m_ptr, 0, 1); break;
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case MIXIOGETOUTPUT: status = get_set_output(m_ptr, 0); break;
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case MIXIOSETINPUTLEFT: status = get_set_input(m_ptr, 1, 0); break;
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case MIXIOSETINPUTRIGHT: status = get_set_input(m_ptr, 1, 1); break;
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case MIXIOSETOUTPUT: status = get_set_output(m_ptr, 1); break;
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default: status = ENOTTY;
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}
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return status;
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}
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/*=========================================================================*
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* mixer_init
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*=========================================================================*/
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PRIVATE int mixer_init()
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{
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/* Try to detect the mixer by writing to MIXER_DAC_LEVEL if the
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* value written can be read back the mixer is there
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*/
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mixer_set(MIXER_DAC_LEVEL, 0x10); /* write something to it */
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if(mixer_get(MIXER_DAC_LEVEL) != 0x10) {
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dprint("sb16: Mixer not detected\n");
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return EIO;
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}
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/* Enable Automatic Gain Control */
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mixer_set(MIXER_AGC, 0x01);
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dprint("Mixer detected\n");
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mixer_avail = 1;
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return OK;
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}
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/*=========================================================================*
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* mixer_get
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*=========================================================================*/
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PRIVATE int mixer_get(reg)
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int reg;
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{
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int i;
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sb16_outb(MIXER_REG, reg);
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for(i = 0; i < 100; i++);
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return sb16_inb(MIXER_DATA) & 0xff;
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}
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/*=========================================================================*
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* get_set_volume *
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*=========================================================================*/
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PRIVATE int get_set_volume(m_ptr, flag)
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message *m_ptr;
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int flag; /* 0 = get, 1 = set */
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{
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phys_bytes user_phys;
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struct volume_level level;
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int cmd_left, cmd_right, shift, max_level;
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sys_datacopy(m_ptr->IO_ENDPT, (vir_bytes)m_ptr->ADDRESS, SELF, (vir_bytes)&level, (phys_bytes)sizeof(level));
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shift = 3;
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max_level = 0x1F;
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switch(level.device) {
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case Master:
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cmd_left = MIXER_MASTER_LEFT;
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cmd_right = MIXER_MASTER_RIGHT;
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break;
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case Dac:
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cmd_left = MIXER_DAC_LEFT;
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cmd_right = MIXER_DAC_RIGHT;
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break;
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case Fm:
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cmd_left = MIXER_FM_LEFT;
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cmd_right = MIXER_FM_RIGHT;
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break;
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case Cd:
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cmd_left = MIXER_CD_LEFT;
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cmd_right = MIXER_CD_RIGHT;
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break;
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case Line:
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cmd_left = MIXER_LINE_LEFT;
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cmd_right = MIXER_LINE_RIGHT;
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break;
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case Mic:
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cmd_left = cmd_right = MIXER_MIC_LEVEL;
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break;
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case Speaker:
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cmd_left = cmd_right = MIXER_PC_LEVEL;
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shift = 6;
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max_level = 0x03;
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break;
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case Treble:
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cmd_left = MIXER_TREBLE_LEFT;
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cmd_right = MIXER_TREBLE_RIGHT;
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shift = 4;
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max_level = 0x0F;
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break;
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case Bass:
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cmd_left = MIXER_BASS_LEFT;
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cmd_right = MIXER_BASS_RIGHT;
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shift = 4;
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max_level = 0x0F;
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break;
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default:
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return EINVAL;
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}
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if(flag) { /* Set volume level */
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if(level.right < 0) level.right = 0;
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else if(level.right > max_level) level.right = max_level;
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if(level.left < 0) level.left = 0;
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else if(level.left > max_level) level.left = max_level;
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mixer_set(cmd_right, (level.right << shift));
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mixer_set(cmd_left, (level.left << shift));
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} else { /* Get volume level */
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level.left = mixer_get(cmd_left);
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level.right = mixer_get(cmd_right);
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level.left >>= shift;
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level.right >>= shift;
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/* Copy back to user */
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sys_datacopy(SELF, (vir_bytes)&level, m_ptr->IO_ENDPT, (vir_bytes)m_ptr->ADDRESS, (phys_bytes)sizeof(level));
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}
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return OK;
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}
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/*=========================================================================*
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* get_set_input *
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*=========================================================================*/
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PRIVATE int get_set_input(m_ptr, flag, channel)
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message *m_ptr;
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int flag; /* 0 = get, 1 = set */
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int channel; /* 0 = left, 1 = right */
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{
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phys_bytes user_phys;
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struct inout_ctrl input;
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int input_cmd, input_mask, mask, del_mask, shift;
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sys_datacopy(m_ptr->IO_ENDPT, (vir_bytes)m_ptr->ADDRESS, SELF, (vir_bytes)&input, (phys_bytes)sizeof(input));
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input_cmd = (channel == 0 ? MIXER_IN_LEFT : MIXER_IN_RIGHT);
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mask = mixer_get(input_cmd);
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switch (input.device) {
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case Fm:
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shift = 5;
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del_mask = 0x1F;
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break;
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case Cd:
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shift = 1;
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del_mask = 0x79;
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break;
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case Line:
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shift = 3;
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del_mask = 0x67;
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break;
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case Mic:
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shift = 0;
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del_mask = 0x7E;
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break;
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default:
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return EINVAL;
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}
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if (flag) { /* Set input */
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input_mask = ((input.left == ON ? 1 : 0) << 1) | (input.right == ON ? 1 : 0);
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if (shift > 0) input_mask <<= shift;
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else input_mask >>= 1;
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mask &= del_mask;
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mask |= input_mask;
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mixer_set(input_cmd, mask);
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} else { /* Get input */
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if (shift > 0) {
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input.left = ((mask >> (shift+1)) & 1 == 1 ? ON : OFF);
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input.right = ((mask >> shift) & 1 == 1 ? ON : OFF);
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} else {
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input.left = ((mask & 1) == 1 ? ON : OFF);
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}
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/* Copy back to user */
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sys_datacopy(SELF, (vir_bytes)&input, m_ptr->IO_ENDPT, (vir_bytes)m_ptr->ADDRESS, (phys_bytes)sizeof(input));
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}
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return OK;
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}
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/*=========================================================================*
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* get_set_output *
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*=========================================================================*/
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PRIVATE int get_set_output(m_ptr, flag)
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message *m_ptr;
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int flag; /* 0 = get, 1 = set */
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{
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phys_bytes user_phys;
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struct inout_ctrl output;
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int output_mask, mask, del_mask, shift;
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sys_datacopy(m_ptr->IO_ENDPT, (vir_bytes)m_ptr->ADDRESS, SELF, (vir_bytes)&output, (phys_bytes)sizeof(output));
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mask = mixer_get(MIXER_OUTPUT_CTRL);
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switch (output.device) {
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case Cd:
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shift = 1;
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del_mask = 0x79;
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break;
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case Line:
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shift = 3;
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del_mask = 0x67;
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break;
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case Mic:
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shift = 0;
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del_mask = 0x7E;
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break;
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default:
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return EINVAL;
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}
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if (flag) { /* Set input */
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output_mask = ((output.left == ON ? 1 : 0) << 1) | (output.right == ON ? 1 : 0);
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if (shift > 0) output_mask <<= shift;
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else output_mask >>= 1;
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mask &= del_mask;
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mask |= output_mask;
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mixer_set(MIXER_OUTPUT_CTRL, mask);
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} else { /* Get input */
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if (shift > 0) {
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output.left = ((mask >> (shift+1)) & 1 == 1 ? ON : OFF);
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output.right = ((mask >> shift) & 1 == 1 ? ON : OFF);
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} else {
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output.left = ((mask & 1) == 1 ? ON : OFF);
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}
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/* Copy back to user */
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sys_datacopy(SELF, (vir_bytes)&output, m_ptr->IO_ENDPT, (vir_bytes)m_ptr->ADDRESS, (phys_bytes)sizeof(output));
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}
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return OK;
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}
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