Apple16X50PCCard.cpp   [plain text]


/*
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*/

/*
 * ApplePCI16X50Serial.cpp
 * This file contains the implementation of device driver for a 16650-family
 * serial device connected as a PCCard device.  This subclass provides only the routines
 * necessary to detect and initialize the hardware, as well as map the
 * device registers and field interrupts.  All other functions are handled
 * by the client-class "com_apple_driver_16X50UARTSync".
 * 
 * 2002-02-15	dreece	I/O Kit port, based on NeXT drvISASerialPort DriverKit driver.
 */

#include "Apple16X50PCCard.h"
#include <IOKit/serial/IOSerialKeys.h>

#define MAX_WINDOWS		((UInt32)10)
#define MAX_UARTS_PER_WINDOW	((UInt32)4)

#define WINDOW_OFFSET_TO_REFCON(win,off) ( (void *)( ((win)&0x07)|((off)&0x18) ) )
#define REFCON_TO_OFFSET(ref)		( (UInt32)( ((UInt32)ref) & 0x18 ) )
#define REFCON_TO_WINDOW(ref)		( (UInt32)( ((UInt32)ref) & 0x07 ) )

#define super Apple16X50BusInterface
OSDefineMetaClassAndStructors(com_apple_driver_16X50PCCard, com_apple_driver_16X50BusInterface)

IOService *Apple16X50PCCard::probe(IOService *provider, SInt32 *score)
{
    char buf[80];

    OffLine = true;
    Provider = OSDynamicCast(IOPCCard16Device, provider);
    if (!Provider) {
        IOLog ("Apple16X50PCCard: Attached to non-IOPCCard16Device provider!  Failing probe()\n");
        return NULL;
    }
    if (!super::probe(provider, score)) return NULL;

    OSNumber *socketNumber=OSDynamicCast(OSNumber, Provider->getProperty("SocketNumber"));
    if (socketNumber) {
        InterfaceInstance = socketNumber->unsigned32BitValue();
        sprintf(buf, "PCCard Socket=%d", (int)InterfaceInstance);
        setProperty(kLocationKey, buf);
    } else {
        InterfaceInstance = 0;
        setProperty(kLocationKey, "PCCard Socket");
    }
    Location = OSDynamicCast(OSString, getProperty(kLocationKey))->getCStringNoCopy();
    
    sprintf(buf, "Apple16X50PCCard%d", (int)InterfaceInstance);
    setName(buf);
    DEBUG_IOLog("%s::probe(%p)\n", Name, Provider);

    OSArray *propArray=OSDynamicCast(OSArray, Provider->getProperty(kIOPCCardVersionOneMatchKey));
    if (propArray) {
        OSString *str=OSDynamicCast(OSString, propArray->getObject(0)); //If present, this will be the vendor name
        if (str)
            IOLog("%s: Card Vendor is \"%s\"\n", Name, str->getCStringNoCopy());
        str=OSDynamicCast(OSString, propArray->getObject(1)); //If present, this will be the product name
        if (str) {
            InterfaceBaseName=str->getCStringNoCopy();  // this will be displayed in NetworkPrefs
            IOLog("%s: Card Name is \"%s\"\n", Name, InterfaceBaseName);
        }
    }
    
    return this;
}

bool Apple16X50PCCard::start(IOService *provider)
{
    if (!super::start(provider)) return false;
    DEBUG_IOLog("%s::start(%p)\n", Name, Provider);

    static const IOPMPowerState myPowerStates[ kIOPCCard16DevicePowerStateCount ] =
    {
        { 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
        { 1, 0, IOPMSoftSleep, IOPMSoftSleep, 0, 0, 0, 0, 0, 0, 0, 0 },
        { 1, IOPMPowerOn, IOPMPowerOn, IOPMPowerOn, 0, 0, 0, 0, 0, 0, 0, 0 }
    };

    // initialize our PM superclass variables
    PMinit();
    // register as the controlling driver
    registerPowerDriver(this, (IOPMPowerState *)myPowerStates, kIOPCCard16DevicePowerStateCount);
    // add ourselves into the PM tree
    Provider->joinPMtree(this);
    // set current pm state
    changePowerStateTo(kIOPCCard16DeviceOnState);

    
    // Find and decompose all function extension tuples...
    client_handle_t handle = Provider->getCardServicesHandle();
    tuple_t tuple;
    cisparse_t parse;
    u_char buf[64];

    tuple.DesiredTuple = CISTPL_FUNCE;
    tuple.Attributes = 0;
    tuple.TupleData = buf;
    tuple.TupleDataMax = sizeof(buf);
    tuple.TupleOffset = 0;
    if (Provider->cardServices(GetFirstTuple, (void*)handle, (void*)&tuple) == CS_SUCCESS) do {
        if (Provider->cardServices(GetTupleData, (void*)handle, (void*)&tuple) != CS_SUCCESS)
            continue;
        if (Provider->cardServices(ParseTuple, (void*)handle, (void*)&tuple, (void*)&parse) != CS_SUCCESS)
            continue;
        switch (parse.funce.type&0xf) {
            case CISTPL_FUNCE_SERIAL_IF	:
            case CISTPL_FUNCE_SERIAL_CAP :
                DEBUG_IOLog("%s: Serial Port ", Name);
                break;

            case CISTPL_FUNCE_SERIAL_IF_DATA :
            case CISTPL_FUNCE_SERIAL_CAP_DATA :
            case CISTPL_FUNCE_SERIAL_SERV_DATA :
                DEBUG_IOLog("%s: Data Modem ", Name);
                Modem = true;
                break;

            case CISTPL_FUNCE_SERIAL_IF_FAX :
            case CISTPL_FUNCE_SERIAL_CAP_FAX :
            case CISTPL_FUNCE_SERIAL_SERV_FAX :
                DEBUG_IOLog("%s: Fax Modem ", Name);
                break;

            case CISTPL_FUNCE_SERIAL_IF_VOICE :
            case CISTPL_FUNCE_SERIAL_CAP_VOICE :
            case CISTPL_FUNCE_SERIAL_SERV_VOICE :
                DEBUG_IOLog("%s: Voice Modem ", Name);
                break;

            default :
                DEBUG_IOLog("%s: Unknown(%d) ", Name, parse.funce.type&0xf);
                break;
        }
#ifdef DEBUG
        switch (parse.funce.type&0xf) {
            case CISTPL_FUNCE_SERIAL_CAP :
            case CISTPL_FUNCE_SERIAL_CAP_DATA :
            case CISTPL_FUNCE_SERIAL_CAP_FAX :
            case CISTPL_FUNCE_SERIAL_CAP_VOICE : {
                cistpl_modem_cap_t *z = (cistpl_modem_cap_t*)parse.funce.data;
                IOLog("Capabilities: ");
                IOLogByte((z->flow),"flow",0,0,0,"Trans","RTS","CTS","RXO","TXO");
                IOLog(" cmd_buf=%d rx_buf=%d tx_buf=%d\n", (z->cmd_buf+1)*4,
                      (z->rcv_buf_0 + (z->rcv_buf_1<<8) + (z->rcv_buf_2<<16)),
                      (z->xmit_buf_0 + (z->xmit_buf_1<<8) + (z->xmit_buf_2<<16))
                      );
                break; }

            case CISTPL_FUNCE_SERIAL_IF	:
            case CISTPL_FUNCE_SERIAL_IF_DATA :
            case CISTPL_FUNCE_SERIAL_IF_FAX :
            case CISTPL_FUNCE_SERIAL_IF_VOICE : {
                cistpl_serial_t *z = (cistpl_serial_t*) &(parse.funce.data);
                IOLog("Interface: uart=");
                switch (z->uart_type) {
                    case CISTPL_SERIAL_UART_8250  : IOLog("8250");	break;
                    case CISTPL_SERIAL_UART_16450 : IOLog("16450");	break;
                    case CISTPL_SERIAL_UART_16550 : IOLog("16550");	break;
                    case CISTPL_SERIAL_UART_8251  : IOLog("8251");	break;
                    case CISTPL_SERIAL_UART_8530  : IOLog("8530");	break;
                    case CISTPL_SERIAL_UART_85230 : IOLog("85230");	break;
                    default : IOLog("Unknown(%d)", z->uart_type);	break;
                }
                IOLogByte((z->uart_cap_0)," par",0,0,0,0,"E","O","M","S");
                IOLogByte((z->uart_cap_1)," bits",0,"2","M","1","8","7","6","5");
                IO_putc('\n');
                break; }

            case CISTPL_FUNCE_SERIAL_SERV_DATA : {
                cistpl_data_serv_t *z = (cistpl_data_serv_t*) parse.funce.data;
                IOLog("Services: baud=%d", (z->max_data_1 + ((z->max_data_0&0x7)<<8))*75);
                IOLogByte((z->modulation_0)," mod0","V.26bis","V.26","V.22bis","B212A","V.22A&B","V.23","V.21","B103");
                IOLogByte((z->modulation_1)," mod1",0,0,0,"V.27bis","V.29","V.32","V.32bis","V.34");
                IOLogByte((z->error_control)," edac",0,0,0,0,0,0,"V.42/LAPM","MNP2-4");
                IOLogByte((z->compression)," comp",0,0,0,0,0,0,"MNP-5","V.42bis");
                IOLogByte((z->cmd_protocol)," cmd",0,"DMCL","V.25A","V.25bis","MNP-AT","AT3","AT2","AT1");
                IOLogByte((z->escape)," esc",0,0,0,0,0,"prog","+++","BRK");
                IOLogByte((z->encrypt)," crypto",0,0,0,0,0,0,0,0);
                IOLogByte((z->misc_features)," misc",0,0,0,0,0,0,0,"CID");
                IO_putc('\n');
                break; }

            case CISTPL_FUNCE_SERIAL_SERV_FAX : {
                cistpl_fax_serv_t *z = (cistpl_fax_serv_t*) parse.funce.data;
                IOLog("Services: Class=%d baud=%d", parse.funce.type>>4, (z->max_data_1 + ((z->max_data_0&0x7)<<8))*75);
                IOLogByte((z->modulation)," mod",0,0,0,"V.33","V.17","V.29","V.27ter","V.21-C2");
                IOLogByte((z->encrypt)," crypto",0,0,0,0,0,0,0,0);
                IOLogByte((z->features_0)," features0","Passwd","FileTran","Poll","Vreq","ECM","T.6","T.4","T.3");
                IOLogByte((z->features_1)," features1",0,0,0,0,0,0,0,0);
                IO_putc('\n');
                break; }

            default :
                IO_putc('\n');
                break;
        }
#endif
    } while (Provider->cardServices(GetNextTuple, (void*)handle, (void*)&tuple) == CS_SUCCESS);

    if (!Provider->configure()) goto fail;
    WindowCount = min(Provider->getWindowCount(),10);
    if (WindowCount < 1) goto fail;

    if (Map) delete [] Map;
    Map = new IOMemoryMap *[WindowCount];
    if (!Map) goto fail;

    UARTInstance=0;
    OffLine = Stopped = false;
    for (unsigned win=0; win < WindowCount; win++) {
        UInt32 attributes, width=0;
        if (Provider->getWindowType(win) != IOPCCARD16_IO_WINDOW)
            continue;
        if (Provider->getWindowAttributes(win, &attributes))
            width = (attributes & IO_DATA_PATH_WIDTH == IO_DATA_PATH_WIDTH_8) ? 8 : 16;
        Map[win] = Provider->mapDeviceMemoryWithIndex(win);
        if (!Map[win]) continue; // try the next map
        DEBUG_IOLog("%s::start() IO window=%d physical=%p virtual=%p length=%d width=%d, attributes=%p\n",
                    Name, win, (void*)Map[win]->getPhysicalAddress(), (void*)Map[win]->getVirtualAddress(),
                    (int)Map[win]->getLength(), (int)width, (void*)attributes);
        if (Map[win] && (Map[win]->getLength()==kREG_Size) && (probeUART(WINDOW_OFFSET_TO_REFCON(win,0))))
            break; // found an UART, lets exit
        else
            RELEASE(Map[win]);
    }
    if (!UARTInstance) goto fail;
    

    if (Modem) {
        setProperty(kIOTTYBaseNameKey, "pccard-modem");
        if (!InterfaceBaseName)
            InterfaceBaseName="PCCard Modem"; // this will be displayed in NetworkPrefs
        IOLog("%s: Identified Modem in %s\n", Name, Location);
    } else {
        setProperty(kIOTTYBaseNameKey, "pccard-serial");
        if (!InterfaceBaseName)
            InterfaceBaseName="PCCard Serial Adapter"; // this will be displayed in NetworkPrefs
        IOLog("%s: Identified Serial Port in %s\n", Name, Location);
    }
    startUARTs();
    return true;

fail:
    stop(Provider);
    return false;
}

void Apple16X50PCCard::stop(IOService *provider)
{
    DEBUG_IOLog("%s::stop(%p)\n", Name, Provider);
    PMstop();	// take ourselves out of PM tree
    goOffLine();
    Stopped=true;
    // unmap the windows
    super::stop(provider);
    if (Map) {
        for (UInt32 win=0; win<WindowCount; win++)
            RELEASE(Map[win]);
        delete [] Map;
        Map=NULL;
    }
    Provider->unconfigure();	// release this device's enabler
}

void Apple16X50PCCard::free()
{
    DEBUG_IOLog("%s::free()\n", Name);
    super::free();
}

Apple16X50UARTSync *Apple16X50PCCard::
probeUART(void* refCon, Apple16X50UARTSync *uart, OSDictionary *properties)
{
    char buf[80];

    uart = super::probeUART(refCon, uart, properties);
    if (!uart) return false;

    sprintf(buf, "%s Window=%d Offset=%d", Location, (int)REFCON_TO_WINDOW(refCon), (int)REFCON_TO_OFFSET(refCon));
    uart->setProperty(kLocationKey, buf);

    return uart;
}

void Apple16X50PCCard::goOnLine()
{
    DEBUG_IOLog("%s::goOnLine() Stopped=%s OffLine=%s\n", Name, BOOLSTR(Stopped), BOOLSTR(OffLine));
    if (Stopped) { // if we are stopped, then we cannot go back online
        goOffLine();
        return;
    }
    if (!OffLine) return; // we already are on-line
    OffLine=false;
    
    UARTInstance=0;
    for (unsigned win=0; win < WindowCount; win++) {
        if (Map[win] && (Map[win]->getLength()==kREG_Size) && (probeUART(WINDOW_OFFSET_TO_REFCON(win,0))))
            break; // found an UART, lets exit
        else
            RELEASE(Map[win]);
    }
    startUARTs();
    if (InterruptSource) InterruptSource->enable();
}

void Apple16X50PCCard::goOffLine()
{
    DEBUG_IOLog("%s::goOffLine() Stopped=%s OffLine=%s\n", Name, BOOLSTR(Stopped), BOOLSTR(OffLine));
    
    if (OffLine) return; // we already are
    OffLine = true;
    
    if (InterruptSource) InterruptSource->disable();
    for (UInt32 i=0; i<MAX_UARTS; i++) {
        if (UART[i]) {
            UART[i]->terminate(kIOServiceRequired | kIOServiceTerminate | kIOServiceSynchronous);
            RELEASE(UART[i]);
        }
    }
}

UInt8 Apple16X50PCCard::getReg(UInt32 reg, void *refCon)
{
    register UInt8 val;
    if (OffLine) {
        val=0xff;
        DEBUG_IOLog("getReg(%d) while offline!\n", (int)reg);
    } else
        val = Provider->ioRead8(reg+REFCON_TO_OFFSET(refCon), Map[REFCON_TO_WINDOW(refCon)]);
    return (val);
}

void Apple16X50PCCard::setReg(UInt32 reg, UInt8 val, void *refCon)
{
    if (!OffLine)
        Provider->ioWrite8(reg+REFCON_TO_OFFSET(refCon), val, Map[REFCON_TO_WINDOW(refCon)]);
#ifdef DEBUG
    else
        DEBUG_IOLog("setReg(%d,%d) while offline!\n", (int)reg, val);
#endif

}

int Apple16X50PCCard::
setPowerState(unsigned long powerState, IOService *whatDevice)
{
    switch (powerState) {

    case kIOPCCard16DeviceOnState:
    case kIOPCCard16DeviceDozeState:
        if (Stopped) {
            DEBUG_IOLog("%s::setPowerState() setting power state to on, but I'm stop()ped!!!\n", Name);
            break;
        }
        DEBUG_IOLog("%s::setPowerState() setting power state to on\n", Name);
        goOnLine();
        break;

    case kIOPCCard16DeviceOffState:
        DEBUG_IOLog("%s::setPowerState() setting power state to off\n", Name);
        goOffLine();
        break;
	
    default:
        DEBUG_IOLog("%s::setPowerState() unknown state=%d?\n", Name, (int)powerState);
	break;
    }

    return IOPMAckImplied;
}

IOReturn Apple16X50PCCard::
message(UInt32 type, IOService *sender, void *argument)
{
	 
    if (type != kIOPCCardCSEventMessage)
        return super::message(type, sender, argument);

    UInt32 cs_event = (UInt32) argument;

    switch (cs_event) {
        case CS_EVENT_EJECTION_REQUEST:
            DEBUG_IOLog("%s::message() Card Eject Requested\n", Name);
        case CS_EVENT_CARD_REMOVAL:
            DEBUG_IOLog("%s::message() Card Removed\n", Name);
            Stopped=true;
            goOffLine();
        default:
            break;
    }

    return kIOReturnSuccess;
}