src/BeOS/serial_beos.cpp

/*
 *  serial_beos.cpp - Serial device driver, BeOS specific stuff
 *
 *  Basilisk II (C) 1997-1999 Christian Bauer
 *
 *  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., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 */

#include <string.h>
#include <stdio.h>
#include <unistd.h>
#include <DeviceKit.h>

#include "sysdeps.h"
#include "cpu_emulation.h"
#include "main.h"
#include "macos_util.h"
#include "prefs.h"
#include "serial.h"
#include "serial_defs.h"

#define DEBUG 0
#include "debug.h"

#define MONITOR 0


// Buffer size for kernel-space transfers
const int TMP_BUF_SIZE = 2048;

// These packets are sent to the input/output threads
const uint32 CMD_READ = 'read';
const uint32 CMD_WRITE = 'writ';
const uint32 CMD_QUIT = 'quit';

struct ThreadPacket {
        uint32 pb;
};


// Driver private variables
class BeSERDPort : public SERDPort {
public:
        BeSERDPort(const char *dev)
        {
                device_name = dev;
                if (strstr(dev, "parallel")) {
                        is_parallel = true;
                        fd = -1;
                        device = NULL;
                } else {
                        is_parallel = false;
                        device = new BSerialPort;       
                }
                device_sem = create_sem(1, "serial port");
                input_thread = output_thread = 0;
        }

        virtual ~BeSERDPort()
        {
                status_t l;
                if (input_thread > 0) {
                        send_data(input_thread, CMD_QUIT, NULL, 0);
                        suspend_thread(input_thread);   // Unblock thread
                        snooze(1000);
                        resume_thread(input_thread);
                        wait_for_thread(input_thread, &l);
                }
                if (output_thread > 0) {
                        send_data(output_thread, CMD_QUIT, NULL, 0);
                        suspend_thread(output_thread);  // Unblock thread
                        snooze(1000);
                        resume_thread(output_thread);
                        wait_for_thread(output_thread, &l);
                }
                acquire_sem(device_sem);
                delete_sem(device_sem);
                delete device;
        }

        virtual int16 open(uint16 config);
        virtual int16 prime_in(uint32 pb, uint32 dce);
        virtual int16 prime_out(uint32 pb, uint32 dce);
        virtual int16 control(uint32 pb, uint32 dce, uint16 code);
        virtual int16 status(uint32 pb, uint32 dce, uint16 code);
        virtual int16 close(void);

private:
        bool configure(uint16 config);
        void set_handshake(uint32 s, bool with_dtr);
        static status_t input_func(void *arg);
        static status_t output_func(void *arg);

        const char *device_name;        // Name of BeOS port
        BSerialPort *device;            // BeOS port object
        bool is_parallel;                       // Flag: Port is parallel, use fd
        int fd;                                         // FD for parallel ports
        sem_id device_sem;                      // BSerialPort arbitration

        thread_id input_thread;         // Data input thread
        thread_id output_thread;        // Data output thread

        bool io_killed;                         // Flag: KillIO called, I/O threads must not call deferred tasks
        bool drop_dtr_on_close;         // Flag: Negate DTR when driver is closed

        uint8 tmp_in_buf[TMP_BUF_SIZE];         // Buffers for copying from/to kernel space
        uint8 tmp_out_buf[TMP_BUF_SIZE];
};


#if DEBUG
static const int baud_rates[] = {
        0, 50, 75, 110, 134, 150, 200, 300, 600, 1200, 1800, 2400, 4800, 9600, 19200, 38400, 57600, 115200, 230400, 31250
};
#endif


/*
 *  Initialization
 */

void SerialInit(void)
{
        // Read serial preferences and create structs for both ports
        the_serd_port[0] = new BeSERDPort(PrefsFindString("seriala"));
        the_serd_port[1] = new BeSERDPort(PrefsFindString("serialb"));
}


/*
 *  Deinitialization
 */

void SerialExit(void)
{
        delete (BeSERDPort *)the_serd_port[0];
        delete (BeSERDPort *)the_serd_port[1];
}


/*
 *  Open serial port
 */

int16 BeSERDPort::open(uint16 config)
{
        // Don't open NULL name devices
        if (device_name == NULL)
                return openErr;

        // Init variables
        io_killed = false;
        drop_dtr_on_close = true;

        // Open port
        while (acquire_sem(device_sem) == B_INTERRUPTED) ;
        if (is_parallel) {
                char name[256];
                sprintf(name, "/dev/parallel/%s", device_name);
                fd = ::open(name, O_WRONLY);
                if (fd < 0) {
                        release_sem(device_sem);
                        return openErr;
                }
        } else {
                device->SetFlowControl(B_HARDWARE_CONTROL);     // Must be set before port is opened
                if (device->Open(device_name) > 0) {
                        device->SetBlocking(true);
                        device->SetTimeout(10000000);
                        device->SetDTR(true);
                        device->SetRTS(true);
                } else {
                        release_sem(device_sem);
                        return openErr;
                }
        }

        // Start input/output threads
        release_sem(device_sem);
        configure(config);
        while (acquire_sem(device_sem) == B_INTERRUPTED) ;
        while ((input_thread = spawn_thread(input_func, "Serial Input", B_NORMAL_PRIORITY, this)) == B_INTERRUPTED) ;
        resume_thread(input_thread);
        while ((output_thread = spawn_thread(output_func, "Serial Output", B_NORMAL_PRIORITY, this)) == B_INTERRUPTED) ;
        resume_thread(output_thread);
        release_sem(device_sem);
        return noErr;
}


/*
 *  Read data from port
 */

int16 BeSERDPort::prime_in(uint32 pb, uint32 dce)
{
        // Send input command to input_thread
        read_done = false;
        read_pending = true;
        ThreadPacket p;
        p.pb = pb;
        WriteMacInt32(input_dt + serdtDCE, dce);
        while (send_data(input_thread, CMD_READ, &p, sizeof(ThreadPacket)) == B_INTERRUPTED) ;
        return 1;       // Command in progress
}


/*
 *  Write data to port
 */

int16 BeSERDPort::prime_out(uint32 pb, uint32 dce)
{
        // Send output command to output_thread
        write_done = false;
        write_pending = true;
        ThreadPacket p;
        p.pb = pb;
        WriteMacInt32(output_dt + serdtDCE, dce);
        while (send_data(output_thread, CMD_WRITE, &p, sizeof(ThreadPacket)) == B_INTERRUPTED) ;
        return 1;       // Command in progress
}


/*
 *      Control calls
 */
 
int16 BeSERDPort::control(uint32 pb, uint32 dce, uint16 code)
{
        switch (code) {
                case 1:                 // KillIO
                        io_killed = true;
                        suspend_thread(input_thread);   // Unblock threads
                        suspend_thread(output_thread);
                        snooze(1000);
                        resume_thread(input_thread);
                        resume_thread(output_thread);
                        while (read_pending || write_pending)
                                snooze(10000);
                        if (!is_parallel) {
                                while (acquire_sem(device_sem) == B_INTERRUPTED) ;
                                device->ClearInput();
                                device->ClearOutput();
                                release_sem(device_sem);
                        }
                        io_killed = false;
                        return noErr;

                case kSERDConfiguration:
                        if (configure(ReadMacInt16(pb + csParam)))
                                return noErr;
                        else
                                return paramErr;

                case kSERDInputBuffer:
                        return noErr;   // Not supported under BeOS

                case kSERDSerHShake:
                        set_handshake(pb + csParam, false);
                        return noErr;

                case kSERDClearBreak:
                case kSERDSetBreak:
                        return noErr;   // Not supported under BeOS

                case kSERDBaudRate:
                        if (!is_parallel) {
                                uint16 rate = ReadMacInt16(pb + csParam);
                                data_rate baud_rate;
                                if (rate <= 50) {
                                        rate = 50; baud_rate = B_50_BPS;
                                } else if (rate <= 75) {
                                        rate = 75; baud_rate = B_75_BPS;
                                } else if (rate <= 110) {
                                        rate = 110; baud_rate = B_110_BPS;
                                } else if (rate <= 134) {
                                        rate = 134; baud_rate = B_134_BPS;
                                } else if (rate <= 150) {
                                        rate = 150; baud_rate = B_150_BPS;
                                } else if (rate <= 200) {
                                        rate = 200; baud_rate = B_200_BPS;
                                } else if (rate <= 300) {
                                        rate = 300; baud_rate = B_300_BPS;
                                } else if (rate <= 600) {
                                        rate = 600; baud_rate = B_600_BPS;
                                } else if (rate <= 1200) {
                                        rate = 1200; baud_rate = B_1200_BPS;
                                } else if (rate <= 1800) {
                                        rate = 1800; baud_rate = B_1800_BPS;
                                } else if (rate <= 2400) {
                                        rate = 2400; baud_rate = B_2400_BPS;
                                } else if (rate <= 4800) {
                                        rate = 4800; baud_rate = B_4800_BPS;
                                } else if (rate <= 9600) {
                                        rate = 9600; baud_rate = B_9600_BPS;
                                } else if (rate <= 19200) {
                                        rate = 19200; baud_rate = B_19200_BPS;
                                } else if (rate <= 31250) {
                                        rate = 31250; baud_rate = B_31250_BPS;
                                } else if (rate <= 38400) {
                                        rate = 38400; baud_rate = B_38400_BPS;
                                } else if (rate <= 57600) {
                                        rate = 57600; baud_rate = B_57600_BPS;
                                }
                                WriteMacInt16(pb + csParam, rate);
                                acquire_sem(device_sem);
                                if (device->SetDataRate(baud_rate) == B_OK) {
                                        release_sem(device_sem);
                                        return noErr;
                                } else {
                                        release_sem(device_sem);
                                        return paramErr;
                                }
                        } else
                                return noErr;

                case kSERDHandshake:
                case kSERDHandshakeRS232:
                        set_handshake(pb + csParam, true);
                        return noErr;

                case kSERDClockMIDI:
                        if (!is_parallel) {
                                while (acquire_sem(device_sem) == B_INTERRUPTED) ;
                                device->SetParityMode(B_NO_PARITY);
                                device->SetDataBits(B_DATA_BITS_8);
                                device->SetStopBits(B_STOP_BITS_1);
                                if (device->SetDataRate(B_31250_BPS) == B_OK) {
                                        release_sem(device_sem);
                                        return noErr;
                                } else {
                                        release_sem(device_sem);
                                        return paramErr;
                                }
                        } else
                                return noErr;

                case kSERDMiscOptions:
                        drop_dtr_on_close = !(ReadMacInt8(pb + csParam) & kOptionPreserveDTR);
                        return noErr;

                case kSERDAssertDTR:
                        if (!is_parallel) {
                                while (acquire_sem(device_sem) == B_INTERRUPTED) ;
                                device->SetDTR(true);
                                release_sem(device_sem);
                        }
                        return noErr;

                case kSERDNegateDTR:
                        if (!is_parallel) {
                                while (acquire_sem(device_sem) == B_INTERRUPTED) ;
                                device->SetDTR(false);
                                release_sem(device_sem);
                        }
                        return noErr;

                case kSERDSetPEChar:
                case kSERDSetPEAltChar:
                        return noErr;   // Not supported under BeOS

                case kSERDResetChannel:
                        if (!is_parallel) {
                                while (acquire_sem(device_sem) == B_INTERRUPTED) ;
                                device->ClearInput();
                                device->ClearOutput();
                                release_sem(device_sem);
                        }
                        return noErr;

                case kSERDAssertRTS:
                        if (!is_parallel) {
                                while (acquire_sem(device_sem) == B_INTERRUPTED) ;
                                device->SetRTS(true);
                                release_sem(device_sem);
                        }
                        return noErr;

                case kSERDNegateRTS:
                        if (!is_parallel) {
                                while (acquire_sem(device_sem) == B_INTERRUPTED) ;
                                device->SetRTS(false);
                                release_sem(device_sem);
                        }
                        return noErr;

                case kSERD115KBaud:
                        if (!is_parallel) {
                                while (acquire_sem(device_sem) == B_INTERRUPTED) ;
                                if (device->DataRate() != B_115200_BPS)
                                        if (device->SetDataRate(B_115200_BPS) != B_OK) {
                                                release_sem(device_sem);
                                                return paramErr;
                                        }
                                release_sem(device_sem);
                        }
                        return noErr;

                case kSERD230KBaud:
                case kSERDSetHighSpeed:
                        if (!is_parallel) {
                                while (acquire_sem(device_sem) == B_INTERRUPTED) ;
                                if (device->DataRate() != B_230400_BPS)
                                        if (device->SetDataRate(B_230400_BPS) != B_OK) {
                                                release_sem(device_sem);
                                                return paramErr;
                                        }
                                release_sem(device_sem);
                        }
                        return noErr;

                default:
                        printf("WARNING: SerialControl(): unimplemented control code %d\n", code);
                        return controlErr;
        }
}


/*
 *      Status calls
 */

int16 BeSERDPort::status(uint32 pb, uint32 dce, uint16 code)
{
        switch (code) {
                case kSERDInputCount:
                        WriteMacInt32(pb + csParam, 0);
                        if (!is_parallel) {
                                int32 num = 0;
                                while (acquire_sem(device_sem) == B_INTERRUPTED) ;
                                device->NumCharsAvailable(&num);
                                release_sem(device_sem);
                                D(bug(" %d bytes in buffer\n", num));
                                WriteMacInt32(pb + csParam, num);
                        }
                        return noErr;

                case kSERDStatus: {
                        uint32 p = pb + csParam;
                        WriteMacInt8(p + staCumErrs, cum_errors);
                        cum_errors = 0;
                        WriteMacInt8(p + staXOffSent, 0);
                        WriteMacInt8(p + staXOffHold, 0);
                        WriteMacInt8(p + staRdPend, read_pending);
                        WriteMacInt8(p + staWrPend, write_pending);
                        if (is_parallel) {
                                WriteMacInt8(p + staCtsHold, 0);
                                WriteMacInt8(p + staDsrHold, 0);
                                WriteMacInt8(p + staModemStatus, dsrEvent | dcdEvent | ctsEvent);
                        } else {
                                while (acquire_sem(device_sem) == B_INTERRUPTED) ;
                                WriteMacInt8(p + staCtsHold, !device->IsCTS());
                                WriteMacInt8(p + staDsrHold, !device->IsDSR());
                                WriteMacInt8(p + staModemStatus,
                                        (device->IsDSR() ? dsrEvent : 0)
                                        | (device->IsRI() ? riEvent : 0)
                                        | (device->IsDCD() ? dcdEvent : 0)
                                        | (device->IsCTS() ? ctsEvent : 0));
                                release_sem(device_sem);
                        }
                        return noErr;
                }

                default:
                        printf("WARNING: SerialStatus(): unimplemented status code %d\n", code);
                        return statusErr;
        }
}


/*
 *      Close serial port
 */

int16 BeSERDPort::close()
{
        // Kill threads
        status_t l;
        io_killed = true;
        if (input_thread > 0) {
                while (send_data(input_thread, CMD_QUIT, NULL, 0) == B_INTERRUPTED) ;
                if (read_pending) {
                        suspend_thread(input_thread);   // Unblock thread
                        snooze(1000);
                        resume_thread(input_thread);
                }
                while (wait_for_thread(input_thread, &l) == B_INTERRUPTED) ;
        }
        if (output_thread > 0) {
                while (send_data(output_thread, CMD_QUIT, NULL, 0) == B_INTERRUPTED) ;
                if (write_pending) {
                        suspend_thread(output_thread);  // Unblock thread
                        snooze(1000);
                        resume_thread(output_thread);
                }
                while (wait_for_thread(output_thread, &l) == B_INTERRUPTED) ;
        }
        input_thread = output_thread = 0;

        // Close port
        while (acquire_sem(device_sem) == B_INTERRUPTED) ;
        if (is_parallel) {
                ::close(fd);
                fd = -1;
        } else {
                if (drop_dtr_on_close)
                        device->SetDTR(false);
                device->Close();
        }
        release_sem(device_sem);
        return noErr;
}


/*
 *  Configure serial port with MacOS config word
 */

bool BeSERDPort::configure(uint16 config)
{
        D(bug(" configure %04x\n", config));
        if (is_parallel)
                return true;

        while (acquire_sem(device_sem) == B_INTERRUPTED) ;

        // Set number of stop bits
        switch (config & 0xc000) {
                case stop10:
                        if (device->StopBits() != B_STOP_BITS_1)
                                device->SetStopBits(B_STOP_BITS_1);
                        break;
                case stop20:
                        if (device->StopBits() != B_STOP_BITS_2)
                                device->SetStopBits(B_STOP_BITS_2);
                        break;
                default:
                        release_sem(device_sem);
                        return false;
        }

        // Set parity mode
        switch (config & 0x3000) {
                case noParity:
                        if (device->ParityMode() != B_NO_PARITY)
                                device->SetParityMode(B_NO_PARITY);
                        break;
                case oddParity:
                        if (device->ParityMode() != B_ODD_PARITY)
                                device->SetParityMode(B_ODD_PARITY);
                        break;
                case evenParity:
                        if (device->ParityMode() != B_EVEN_PARITY)
                                device->SetParityMode(B_EVEN_PARITY);
                        break;
                default:
                        release_sem(device_sem);
                        return false;
        }

        // Set number of data bits
        switch (config & 0x0c00) {
                case data7:
                        if (device->DataBits() != B_DATA_BITS_7)
                                device->SetDataBits(B_DATA_BITS_7);
                        break;
                case data8:
                        if (device->DataBits() != B_DATA_BITS_8)
                                device->SetDataBits(B_DATA_BITS_8);
                        break;
                default:
                        release_sem(device_sem);
                        return false;
        }

        // Set baud rate
        data_rate baud_rate;
        switch (config & 0x03ff) {
                case baud150: baud_rate = B_150_BPS; break;
                case baud300: baud_rate = B_300_BPS; break;
                case baud600: baud_rate = B_600_BPS; break;
                case baud1200: baud_rate = B_1200_BPS; break;
                case baud1800: baud_rate = B_1800_BPS; break;
                case baud2400: baud_rate = B_2400_BPS; break;
                case baud4800: baud_rate = B_4800_BPS; break;
                case baud9600: baud_rate = B_9600_BPS; break;
                case baud19200: baud_rate = B_19200_BPS; break;
                case baud38400: baud_rate = B_38400_BPS; break;
                case baud57600: baud_rate = B_57600_BPS; break;
                default:
                        release_sem(device_sem);
                        return false;
        }

        D(bug(" baud rate %d, %d stop bits, %s parity, %d data bits\n", baud_rates[baud_rate], device->StopBits() == B_STOP_BITS_1 ? 1 : 2, device->ParityMode() == B_NO_PARITY ? "no" : device->ParityMode() == B_ODD_PARITY ? "odd" : "even", device->DataBits() == B_DATA_BITS_7 ? 7 : 8));
        if (device->DataRate() != baud_rate) {
                bool res = device->SetDataRate(baud_rate) == B_OK;
                release_sem(device_sem);
                return res;
        } else {
                release_sem(device_sem);
                return true;
        }
}


/*
 *  Set serial handshaking
 */

void BeSERDPort::set_handshake(uint32 s, bool with_dtr)
{
        D(bug(" set_handshake %02x %02x %02x %02x %02x %02x %02x %02x\n",
                ReadMacInt8(s + 0), ReadMacInt8(s + 1), ReadMacInt8(s + 2), ReadMacInt8(s + 3),
                ReadMacInt8(s + 4), ReadMacInt8(s + 5), ReadMacInt8(s + 6), ReadMacInt8(s + 7)));
        if (is_parallel)
                return;

        uint32 flow;
        if (with_dtr) {
                if (ReadMacInt8(s + shkFCTS) || ReadMacInt8(s + shkFDTR))
                        flow = B_HARDWARE_CONTROL;
                else
                        flow = B_SOFTWARE_CONTROL;
        } else {
                if (ReadMacInt8(s + shkFCTS))
                        flow = B_HARDWARE_CONTROL;
                else
                        flow = B_SOFTWARE_CONTROL;
        }

        D(bug(" %sware flow control\n", flow == B_HARDWARE_CONTROL ? "hard" : "soft"));
        while (acquire_sem(device_sem) == B_INTERRUPTED) ;
        if (device->FlowControl() != flow) {
                device->Close();
                device->SetFlowControl(flow);
                device->Open(device_name);
        }
        release_sem(device_sem);
}


/*
 *  Data input thread
 */

status_t BeSERDPort::input_func(void *arg)
{
        BeSERDPort *s = (BeSERDPort *)arg;
        for (;;) {

                // Wait for commands
                thread_id sender;
                ThreadPacket p;
                uint32 code = receive_data(&sender, &p, sizeof(ThreadPacket));
                if (code == CMD_QUIT)
                        break;
                if (code != CMD_READ)
                        continue;

                // Execute command
                void *buf = Mac2HostAddr(ReadMacInt32(p.pb + ioBuffer));
                uint32 length = ReadMacInt32(p.pb + ioReqCount);
                D(bug("input_func waiting for %ld bytes of data...\n", length));
                int32 actual;

                // Buffer in kernel space?
                if ((uint32)buf < 0x80000000) {
        
                        // Yes, transfer via buffer
                        actual = 0;
                        while (length) {
                                uint32 transfer_size = (length > TMP_BUF_SIZE) ? TMP_BUF_SIZE : length;
                                int32 transferred;
                                acquire_sem(s->device_sem);
                                if (s->is_parallel) {
                                        if ((transferred = read(s->fd, s->tmp_in_buf, transfer_size)) < 0 || s->io_killed) {
                                                // Error
                                                actual = transferred;
                                                release_sem(s->device_sem);
                                                break;
                                        }
                                } else {
                                        if ((transferred = s->device->Read(s->tmp_in_buf, transfer_size)) < 0 || s->io_killed) {
                                                // Error
                                                actual = transferred;
                                                release_sem(s->device_sem);
                                                break;
                                        }
                                }
                                release_sem(s->device_sem);
                                memcpy(buf, s->tmp_in_buf, transferred);
                                buf = (void *)((uint8 *)buf + transferred);
                                length -= transferred;
                                actual += transferred;
                        }

                } else {

                        // No, transfer directly
                        acquire_sem(s->device_sem);
                        if (s->is_parallel)
                                actual = read(s->fd, buf, length);
                        else
                                actual = s->device->Read(buf, length);
                        release_sem(s->device_sem);
                }

                D(bug(" %ld bytes received\n", actual));

#if MONITOR
                bug("Receiving serial data:\n");
                uint8 *adr = Mac2HostAddr(ReadMacInt32(p.pb + ioBuffer));
                for (int i=0; i<actual; i++) {
                        bug("%02x ", adr[i]);
                }
                bug("\n");
#endif

                // KillIO called? Then simply return
                if (s->io_killed) {

                        WriteMacInt16(p.pb + ioResult, abortErr);
                        WriteMacInt32(p.pb + ioActCount, 0);
                        s->read_pending = s->read_done = false;

                } else {

                        // Set error code
                        if (actual >= 0) {
                                WriteMacInt32(p.pb + ioActCount, actual);
                                WriteMacInt32(s->input_dt + serdtResult, noErr);
                        } else {
                                WriteMacInt32(p.pb + ioActCount, 0);
                                WriteMacInt32(s->input_dt + serdtResult, readErr);
                        }
        
                        // Trigger serial interrupt
                        D(bug(" triggering serial interrupt\n"));
                        s->read_done = true;
                        SetInterruptFlag(INTFLAG_SERIAL);
                        TriggerInterrupt();
                }
        }
        return 0;
}


/*
 *  Data output thread
 */

status_t BeSERDPort::output_func(void *arg)
{
        BeSERDPort *s = (BeSERDPort *)arg;
        for (;;) {

                // Wait for commands
                thread_id sender;
                ThreadPacket p;
                uint32 code = receive_data(&sender, &p, sizeof(ThreadPacket));
                if (code == CMD_QUIT)
                        break;
                if (code != CMD_WRITE)
                        continue;

                // Execute command
                void *buf = Mac2HostAddr(ReadMacInt32(p.pb + ioBuffer));
                uint32 length = ReadMacInt32(p.pb + ioReqCount);
                D(bug("output_func transmitting %ld bytes of data...\n", length));
                int32 actual;

#if MONITOR
                bug("Sending serial data:\n");
                uint8 *adr = (uint8 *)buf;
                for (int i=0; i<length; i++) {
                        bug("%02x ", adr[i]);
                }
                bug("\n");
#endif

                // Buffer in kernel space?
                if ((uint32)buf < 0x80000000) {
        
                        // Yes, transfer via buffer
                        actual = 0;
                        while (length) {
                                uint32 transfer_size = (length > TMP_BUF_SIZE) ? TMP_BUF_SIZE : length;
                                memcpy(s->tmp_out_buf, buf, transfer_size);
                                int32 transferred;
                                acquire_sem(s->device_sem);
                                if (s->is_parallel) {
                                        if ((transferred = write(s->fd, s->tmp_out_buf, transfer_size)) < transfer_size || s->io_killed) {
                                                if (transferred < 0)    // Error
                                                        actual = transferred;
                                                else
                                                        actual += transferred;
                                                release_sem(s->device_sem);
                                                break;
                                        }
                                } else {
                                        if ((transferred = s->device->Write(s->tmp_out_buf, transfer_size)) < transfer_size || s->io_killed) {
                                                if (transferred < 0)    // Error
                                                        actual = transferred;
                                                else
                                                        actual += transferred;
                                                release_sem(s->device_sem);
                                                break;
                                        }
                                }
                                release_sem(s->device_sem);
                                if (transferred > transfer_size)        // R3 parallel port driver bug
                                        transferred = transfer_size;
                                buf = (void *)((uint8 *)buf + transferred);
                                length -= transferred;
                                actual += transferred;
                        }

                } else {
        
                        // No, transfer directly
                        acquire_sem(s->device_sem);
                        if (s->is_parallel)
                                actual = write(s->fd, buf, length);
                        else
                                actual = s->device->Write(buf, length);
                        release_sem(s->device_sem);
                        if (actual > length)    // R3 parallel port driver bug
                                actual = length;
                }

                D(bug(" %ld bytes transmitted\n", actual));

                // KillIO called? Then simply return
                if (s->io_killed) {

                        WriteMacInt16(p.pb + ioResult, abortErr);
                        WriteMacInt32(p.pb + ioActCount, 0);
                        s->write_pending = s->write_done = false;

                } else {

                        // Set error code
                        if (actual >= 0) {
                                WriteMacInt32(p.pb + ioActCount, actual);
                                WriteMacInt32(s->output_dt + serdtResult, noErr);
                        } else {
                                WriteMacInt32(p.pb + ioActCount, 0);
                                WriteMacInt32(s->output_dt + serdtResult, writErr);
                        }
        
                        // Trigger serial interrupt
                        D(bug(" triggering serial interrupt\n"));
                        s->write_done = true;
                        SetInterruptFlag(INTFLAG_SERIAL);
                        TriggerInterrupt();
                }
        }
        return 0;
}
Revision:	1.3
Committed:	1999-10-19T21:33:59Z (24 years, 8 months ago) by cebix
Branch:	MAIN
CVS Tags:	snapshot-21101999, snapshot-22121999, release-0_8-1, snapshot-02111999
Changes since 1.2:	+2 -2 lines
Log Message:	- fixed compilation problems on BeOS