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Bochs/bochs/iodev/serial.cc
Volker Ruppert b130bf671b - initial "log action by device" implementation added (TODO: check for 
invalid module names, save log actions to bochsrc)
- added new member 'name' to the logfunctions class for the case the prefix
  is too short. Added to some devices with longer names.
2011-12-29 19:51:54 +00:00

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/////////////////////////////////////////////////////////////////////////
// $Id$
/////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2004-2009 The Bochs Project
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2 of the License, or (at your option) any later version.
//
// This library 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
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
/////////////////////////////////////////////////////////////////////////
// Peter Grehan (grehan@iprg.nokia.com) coded the original version of this
// serial emulation. He implemented a single 8250, and allow terminal
// input/output to stdout on FreeBSD.
// The current version emulates up to 4 UART 16550A with FIFO. Terminal
// input/output now works on some more platforms.
// Define BX_PLUGGABLE in files that can be compiled into plugins. For
// platforms that require a special tag on exported symbols, BX_PLUGGABLE
// is used to know when we are exporting symbols and when we are importing.
#define BX_PLUGGABLE
#ifndef WIN32
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <netdb.h>
#define closesocket(s) close(s)
typedef int SOCKET;
#endif
#include "iodev.h"
#include "serial.h"
#if defined(WIN32) && !defined(FILE_FLAG_FIRST_PIPE_INSTANCE)
#define FILE_FLAG_FIRST_PIPE_INSTANCE 0
#endif
#if USE_RAW_SERIAL
#include "serial_raw.h"
#endif
#define LOG_THIS theSerialDevice->
bx_serial_c *theSerialDevice = NULL;
int libserial_LTX_plugin_init(plugin_t *plugin, plugintype_t type, int argc, char *argv[])
{
theSerialDevice = new bx_serial_c();
BX_REGISTER_DEVICE_DEVMODEL(plugin, type, theSerialDevice, BX_PLUGIN_SERIAL);
return(0); // Success
}
void libserial_LTX_plugin_fini(void)
{
delete theSerialDevice;
}
bx_serial_c::bx_serial_c(void)
{
put("serial", "SER");
for (int i=0; i<BX_SERIAL_MAXDEV; i++) {
s[i].io_mode = BX_SER_MODE_NULL;
s[i].tty_id = -1;
s[i].tx_timer_index = BX_NULL_TIMER_HANDLE;
s[i].rx_timer_index = BX_NULL_TIMER_HANDLE;
s[i].fifo_timer_index = BX_NULL_TIMER_HANDLE;
}
}
bx_serial_c::~bx_serial_c(void)
{
char pname[20];
bx_list_c *base;
for (int i=0; i<BX_SERIAL_MAXDEV; i++) {
sprintf(pname, "ports.serial.%d", i+1);
base = (bx_list_c*) SIM->get_param(pname);
if (SIM->get_param_bool("enabled", base)->get()) {
switch (BX_SER_THIS s[i].io_mode) {
case BX_SER_MODE_FILE:
if (BX_SER_THIS s[i].output != NULL)
fclose(BX_SER_THIS s[i].output);
break;
case BX_SER_MODE_TERM:
#if defined(SERIAL_ENABLE) && !defined(WIN32)
if (s[i].tty_id >= 0) {
tcsetattr(s[i].tty_id, TCSAFLUSH, &s[i].term_orig);
}
#endif
break;
case BX_SER_MODE_RAW:
#if USE_RAW_SERIAL
delete [] BX_SER_THIS s[i].raw;
#endif
break;
case BX_SER_MODE_SOCKET:
if (BX_SER_THIS s[i].socket_id >= 0) closesocket(BX_SER_THIS s[i].socket_id);
break;
case BX_SER_MODE_PIPE:
#ifdef WIN32
if (BX_SER_THIS s[i].pipe)
CloseHandle(BX_SER_THIS s[i].pipe);
#endif
break;
}
}
}
BX_DEBUG(("Exit"));
}
void
bx_serial_c::init(void)
{
Bit16u ports[BX_SERIAL_MAXDEV] = {0x03f8, 0x02f8, 0x03e8, 0x02e8};
char name[16], pname[20];
bx_list_c *base;
unsigned i;
BX_SER_THIS detect_mouse = 0;
BX_SER_THIS mouse_port = -1;
BX_SER_THIS mouse_type = BX_MOUSE_TYPE_NONE;
BX_SER_THIS mouse_internal_buffer.num_elements = 0;
for (i=0; i<BX_MOUSE_BUFF_SIZE; i++)
BX_SER_THIS mouse_internal_buffer.buffer[i] = 0;
BX_SER_THIS mouse_internal_buffer.head = 0;
BX_SER_THIS mouse_delayed_dx = 0;
BX_SER_THIS mouse_delayed_dy = 0;
/*
* Put the UART registers into their RESET state
*/
for (i=0; i<BX_N_SERIAL_PORTS; i++) {
sprintf(pname, "ports.serial.%d", i+1);
base = (bx_list_c*) SIM->get_param(pname);
if (SIM->get_param_bool("enabled", base)->get()) {
sprintf(name, "Serial Port %d", i + 1);
/* serial interrupt */
BX_SER_THIS s[i].IRQ = 4 - (i & 1);
if (i < 2) {
DEV_register_irq(BX_SER_THIS s[i].IRQ, name);
}
/* internal state */
BX_SER_THIS s[i].ls_ipending = 0;
BX_SER_THIS s[i].ms_ipending = 0;
BX_SER_THIS s[i].rx_ipending = 0;
BX_SER_THIS s[i].fifo_ipending = 0;
BX_SER_THIS s[i].ls_interrupt = 0;
BX_SER_THIS s[i].ms_interrupt = 0;
BX_SER_THIS s[i].rx_interrupt = 0;
BX_SER_THIS s[i].tx_interrupt = 0;
BX_SER_THIS s[i].fifo_interrupt = 0;
if (BX_SER_THIS s[i].tx_timer_index == BX_NULL_TIMER_HANDLE) {
BX_SER_THIS s[i].tx_timer_index =
bx_pc_system.register_timer(this, tx_timer_handler, 0,
0,0, "serial.tx"); // one-shot, inactive
}
if (BX_SER_THIS s[i].rx_timer_index == BX_NULL_TIMER_HANDLE) {
BX_SER_THIS s[i].rx_timer_index =
bx_pc_system.register_timer(this, rx_timer_handler, 0,
0,0, "serial.rx"); // one-shot, inactive
}
if (BX_SER_THIS s[i].fifo_timer_index == BX_NULL_TIMER_HANDLE) {
BX_SER_THIS s[i].fifo_timer_index =
bx_pc_system.register_timer(this, fifo_timer_handler, 0,
0,0, "serial.fifo"); // one-shot, inactive
}
BX_SER_THIS s[i].rx_pollstate = BX_SER_RXIDLE;
/* int enable: b0000 0000 */
BX_SER_THIS s[i].int_enable.rxdata_enable = 0;
BX_SER_THIS s[i].int_enable.txhold_enable = 0;
BX_SER_THIS s[i].int_enable.rxlstat_enable = 0;
BX_SER_THIS s[i].int_enable.modstat_enable = 0;
/* int ID: b0000 0001 */
BX_SER_THIS s[i].int_ident.ipending = 1;
BX_SER_THIS s[i].int_ident.int_ID = 0;
/* FIFO control: b0000 0000 */
BX_SER_THIS s[i].fifo_cntl.enable = 0;
BX_SER_THIS s[i].fifo_cntl.rxtrigger = 0;
BX_SER_THIS s[i].rx_fifo_end = 0;
BX_SER_THIS s[i].tx_fifo_end = 0;
/* Line Control reg: b0000 0000 */
BX_SER_THIS s[i].line_cntl.wordlen_sel = 0;
BX_SER_THIS s[i].line_cntl.stopbits = 0;
BX_SER_THIS s[i].line_cntl.parity_enable = 0;
BX_SER_THIS s[i].line_cntl.evenparity_sel = 0;
BX_SER_THIS s[i].line_cntl.stick_parity = 0;
BX_SER_THIS s[i].line_cntl.break_cntl = 0;
BX_SER_THIS s[i].line_cntl.dlab = 0;
/* Modem Control reg: b0000 0000 */
BX_SER_THIS s[i].modem_cntl.dtr = 0;
BX_SER_THIS s[i].modem_cntl.rts = 0;
BX_SER_THIS s[i].modem_cntl.out1 = 0;
BX_SER_THIS s[i].modem_cntl.out2 = 0;
BX_SER_THIS s[i].modem_cntl.local_loopback = 0;
/* Line Status register: b0110 0000 */
BX_SER_THIS s[i].line_status.rxdata_ready = 0;
BX_SER_THIS s[i].line_status.overrun_error = 0;
BX_SER_THIS s[i].line_status.parity_error = 0;
BX_SER_THIS s[i].line_status.framing_error = 0;
BX_SER_THIS s[i].line_status.break_int = 0;
BX_SER_THIS s[i].line_status.thr_empty = 1;
BX_SER_THIS s[i].line_status.tsr_empty = 1;
BX_SER_THIS s[i].line_status.fifo_error = 0;
/* Modem Status register: bXXXX 0000 */
BX_SER_THIS s[i].modem_status.delta_cts = 0;
BX_SER_THIS s[i].modem_status.delta_dsr = 0;
BX_SER_THIS s[i].modem_status.ri_trailedge = 0;
BX_SER_THIS s[i].modem_status.delta_dcd = 0;
BX_SER_THIS s[i].modem_status.cts = 0;
BX_SER_THIS s[i].modem_status.dsr = 0;
BX_SER_THIS s[i].modem_status.ri = 0;
BX_SER_THIS s[i].modem_status.dcd = 0;
BX_SER_THIS s[i].scratch = 0; /* scratch register */
BX_SER_THIS s[i].divisor_lsb = 1; /* divisor-lsb register */
BX_SER_THIS s[i].divisor_msb = 0; /* divisor-msb register */
BX_SER_THIS s[i].baudrate = 115200;
for (unsigned addr=ports[i]; addr<(unsigned)(ports[i]+8); addr++) {
BX_DEBUG(("com%d initialize register for read/write: 0x%04x",i+1, addr));
DEV_register_ioread_handler(this, read_handler, addr, name, 1);
DEV_register_iowrite_handler(this, write_handler, addr, name, 1);
}
BX_SER_THIS s[i].io_mode = BX_SER_MODE_NULL;
const char *mode = SIM->get_param_enum("mode", base)->get_selected();
const char *dev = SIM->get_param_string("dev", base)->getptr();
if (!strcmp(mode, "file")) {
if (strlen(dev) > 0) {
BX_SER_THIS s[i].output = fopen(dev, "wb");
if (BX_SER_THIS s[i].output)
BX_SER_THIS s[i].io_mode = BX_SER_MODE_FILE;
}
} else if (!strcmp(mode, "term")) {
#if defined(SERIAL_ENABLE) && !defined(WIN32)
if (strlen(dev) > 0) {
BX_SER_THIS s[i].tty_id = open(dev, O_RDWR|O_NONBLOCK,600);
if (BX_SER_THIS s[i].tty_id < 0) {
BX_PANIC(("open of com%d (%s) failed", i+1, dev));
} else {
BX_SER_THIS s[i].io_mode = BX_SER_MODE_TERM;
BX_DEBUG(("com%d tty_id: %d", i+1, BX_SER_THIS s[i].tty_id));
tcgetattr(BX_SER_THIS s[i].tty_id, &BX_SER_THIS s[i].term_orig);
memcpy(&BX_SER_THIS s[i].term_orig, &BX_SER_THIS s[i].term_new, sizeof(struct termios));
BX_SER_THIS s[i].term_new.c_iflag &= ~(IGNBRK|BRKINT|PARMRK|ISTRIP|INLCR|IGNCR|ICRNL|IXON);
BX_SER_THIS s[i].term_new.c_lflag &= ~(ECHO|ECHONL|ICANON|ISIG|IEXTEN);
BX_SER_THIS s[i].term_new.c_cflag &= ~(CSIZE|PARENB);
BX_SER_THIS s[i].term_new.c_cflag |= CS8;
BX_SER_THIS s[i].term_new.c_oflag |= OPOST | ONLCR; // Enable NL to CR-NL translation
#ifndef TRUE_CTLC
// ctl-C will exit Bochs, or trap to the debugger
BX_SER_THIS s[i].term_new.c_iflag &= ~IGNBRK;
BX_SER_THIS s[i].term_new.c_iflag |= BRKINT;
BX_SER_THIS s[i].term_new.c_lflag |= ISIG;
#else
// ctl-C will be delivered to the serial port
BX_SER_THIS s[i].term_new.c_iflag |= IGNBRK;
BX_SER_THIS s[i].term_new.c_iflag &= ~BRKINT;
#endif /* !def TRUE_CTLC */
BX_SER_THIS s[i].term_new.c_iflag = 0;
BX_SER_THIS s[i].term_new.c_oflag = 0;
BX_SER_THIS s[i].term_new.c_cflag = CS8|CREAD|CLOCAL;
BX_SER_THIS s[i].term_new.c_lflag = 0;
BX_SER_THIS s[i].term_new.c_cc[VMIN] = 1;
BX_SER_THIS s[i].term_new.c_cc[VTIME] = 0;
//BX_SER_THIS s[i].term_new.c_iflag |= IXOFF;
tcsetattr(BX_SER_THIS s[i].tty_id, TCSAFLUSH, &BX_SER_THIS s[i].term_new);
}
}
#else
BX_PANIC(("serial terminal support not available"));
#endif /* def SERIAL_ENABLE */
} else if (!strcmp(mode, "raw")) {
#if USE_RAW_SERIAL
BX_SER_THIS s[i].raw = new serial_raw(dev);
BX_SER_THIS s[i].io_mode = BX_SER_MODE_RAW;
#else
BX_PANIC(("raw serial support not present"));
#endif
} else if (!strcmp(mode, "mouse")) {
BX_SER_THIS s[i].io_mode = BX_SER_MODE_MOUSE;
BX_SER_THIS mouse_port = i;
BX_SER_THIS mouse_type = SIM->get_param_enum(BXPN_MOUSE_TYPE)->get();
} else if (!strncmp(mode, "socket", 6)) {
BX_SER_THIS s[i].io_mode = BX_SER_MODE_SOCKET;
struct sockaddr_in sin;
struct hostent *hp;
char host[BX_PATHNAME_LEN];
int port;
SOCKET socket;
bx_bool server = !strcmp(mode, "socket-server");
#if defined(WIN32)
static bx_bool winsock_init = false;
if (!winsock_init) {
WORD wVersionRequested;
WSADATA wsaData;
int err;
wVersionRequested = MAKEWORD(2, 0);
err = WSAStartup(wVersionRequested, &wsaData);
if (err != 0)
BX_PANIC(("WSAStartup failed"));
winsock_init = true;
}
#endif
strcpy(host, dev);
char *substr = strtok(host, ":");
substr = strtok(NULL, ":");
if (!substr) {
BX_PANIC(("com%d: inet address is wrong (%s)", i+1, dev));
}
port = atoi(substr);
hp = gethostbyname(host);
if (!hp) {
BX_PANIC(("com%d: gethostbyname failed (%s)", i+1, host));
}
memset ((char*) &sin, 0, sizeof (sin));
#if BX_HAVE_SOCKADDR_IN_SIN_LEN
sin.sin_len = sizeof sin;
#endif
memcpy ((char*) &(sin.sin_addr), hp->h_addr, hp->h_length);
sin.sin_family = hp->h_addrtype;
sin.sin_port = htons (port);
socket = ::socket (AF_INET, SOCK_STREAM, 0);
if (socket < 0)
BX_PANIC(("com%d: socket() failed",i+1));
// server mode
if (server) {
if (::bind (socket, (sockaddr *) &sin, sizeof (sin)) < 0 ||
::listen (socket, SOMAXCONN) < 0) {
closesocket(socket);
socket = (SOCKET) -1;
BX_PANIC(("com%d: bind() or listen() failed (host:%s, port:%d)",i+1, host, port));
}
else {
BX_INFO(("com%d: waiting for client to connect (host:%s, port:%d)",i+1, host, port));
SOCKET client;
if ((client = ::accept (socket, NULL, 0)) < 0)
BX_PANIC(("com%d: accept() failed (host:%s, port:%d)",i+1, host, port));
closesocket(socket);
socket = client;
}
}
// client mode
else if (::connect (socket, (sockaddr *) &sin, sizeof (sin)) < 0) {
closesocket(socket);
socket = (SOCKET) -1;
BX_INFO(("com%d: connect() failed (host:%s, port:%d)",i+1, host, port));
}
BX_SER_THIS s[i].socket_id = socket;
if (socket > 0)
BX_INFO(("com%d - inet %s - socket_id: %d, ip:%s, port:%d",
i+1, server ? "server" : "client", socket, host, port));
} else if (!strncmp(mode, "pipe", 4)) {
if (strlen(dev) > 0) {
#ifdef WIN32
bx_bool server = !strcmp(mode, "pipe-server");
HANDLE pipe;
BX_SER_THIS s[i].io_mode = BX_SER_MODE_PIPE;
// server mode
if (server) {
pipe = CreateNamedPipe( dev,
PIPE_ACCESS_DUPLEX | FILE_FLAG_FIRST_PIPE_INSTANCE,
PIPE_TYPE_BYTE | PIPE_READMODE_BYTE | PIPE_WAIT,
1, 4096, 4096, 0, NULL);
if (pipe == INVALID_HANDLE_VALUE)
BX_PANIC(("com%d: CreateNamedPipe(%s) failed", i+1, dev));
BX_INFO(("com%d: waiting for client to connect to %s", i+1, dev));
if (!ConnectNamedPipe(pipe, NULL) && GetLastError() != ERROR_PIPE_CONNECTED)
{
CloseHandle(pipe);
pipe = INVALID_HANDLE_VALUE;
BX_PANIC(("com%d: ConnectNamedPipe(%s) failed", i+1, dev));
}
}
// client mode
else {
pipe = CreateFile( dev,
GENERIC_READ | GENERIC_WRITE,
0, NULL, OPEN_EXISTING, 0, NULL);
if (pipe == INVALID_HANDLE_VALUE)
BX_INFO(("com%d: failed to open pipe %s", i+1, dev));
}
if (pipe != INVALID_HANDLE_VALUE)
BX_SER_THIS s[i].pipe = pipe;
#else
BX_PANIC(("support for serial mode '%s' not available", mode));
#endif
}
} else if (strcmp(mode, "null")) {
BX_PANIC(("unknown serial i/o mode '%s'", mode));
}
// simulate device connected
if (BX_SER_THIS s[i].io_mode != BX_SER_MODE_RAW) {
BX_SER_THIS s[i].modem_status.cts = 1;
BX_SER_THIS s[i].modem_status.dsr = 1;
}
BX_INFO(("com%d at 0x%04x irq %d", i+1, ports[i], BX_SER_THIS s[i].IRQ));
}
}
if ((BX_SER_THIS mouse_type == BX_MOUSE_TYPE_SERIAL) ||
(BX_SER_THIS mouse_type == BX_MOUSE_TYPE_SERIAL_WHEEL) ||
(BX_SER_THIS mouse_type == BX_MOUSE_TYPE_SERIAL_MSYS)) {
DEV_register_default_mouse(this, mouse_enq_static, NULL);
}
}
void bx_serial_c::register_state(void)
{
unsigned i, j;
char name[6];
bx_list_c *port;
bx_list_c *list = new bx_list_c(SIM->get_bochs_root(), "serial", "Serial Port State", 9);
for (i=0; i<BX_N_SERIAL_PORTS; i++) {
sprintf(name, "%d", i);
port = new bx_list_c(list, name, 28);
new bx_shadow_bool_c(port, "ls_interrupt", &BX_SER_THIS s[i].ls_interrupt);
new bx_shadow_bool_c(port, "ms_interrupt", &BX_SER_THIS s[i].ms_interrupt);
new bx_shadow_bool_c(port, "rx_interrupt", &BX_SER_THIS s[i].rx_interrupt);
new bx_shadow_bool_c(port, "tx_interrupt", &BX_SER_THIS s[i].tx_interrupt);
new bx_shadow_bool_c(port, "fifo_interrupt", &BX_SER_THIS s[i].fifo_interrupt);
new bx_shadow_bool_c(port, "ls_ipending", &BX_SER_THIS s[i].ls_ipending);
new bx_shadow_bool_c(port, "ms_ipending", &BX_SER_THIS s[i].ms_ipending);
new bx_shadow_bool_c(port, "rx_ipending", &BX_SER_THIS s[i].rx_ipending);
new bx_shadow_bool_c(port, "fifo_ipending", &BX_SER_THIS s[i].fifo_ipending);
new bx_shadow_num_c(port, "rx_fifo_end", &BX_SER_THIS s[i].rx_fifo_end);
new bx_shadow_num_c(port, "tx_fifo_end", &BX_SER_THIS s[i].tx_fifo_end);
new bx_shadow_num_c(port, "baudrate", &BX_SER_THIS s[i].baudrate);
new bx_shadow_num_c(port, "rx_pollstate", &BX_SER_THIS s[i].rx_pollstate);
new bx_shadow_num_c(port, "rxbuffer", &BX_SER_THIS s[i].rxbuffer, BASE_HEX);
new bx_shadow_num_c(port, "thrbuffer", &BX_SER_THIS s[i].thrbuffer, BASE_HEX);
bx_list_c *int_en = new bx_list_c(port, "int_enable", 4);
new bx_shadow_bool_c(int_en, "rxdata_enable", &BX_SER_THIS s[i].int_enable.rxdata_enable);
new bx_shadow_bool_c(int_en, "txhold_enable", &BX_SER_THIS s[i].int_enable.txhold_enable);
new bx_shadow_bool_c(int_en, "rxlstat_enable", &BX_SER_THIS s[i].int_enable.rxlstat_enable);
new bx_shadow_bool_c(int_en, "modstat_enable", &BX_SER_THIS s[i].int_enable.modstat_enable);
bx_list_c *int_id = new bx_list_c(port, "int_ident", 2);
new bx_shadow_bool_c(int_id, "ipending", &BX_SER_THIS s[i].int_ident.ipending);
new bx_shadow_num_c(int_id, "int_ID", &BX_SER_THIS s[i].int_ident.int_ID, BASE_HEX);
bx_list_c *fifo = new bx_list_c(port, "fifo_cntl", 2);
new bx_shadow_bool_c(fifo, "enable", &BX_SER_THIS s[i].fifo_cntl.enable);
new bx_shadow_num_c(fifo, "rxtrigger", &BX_SER_THIS s[i].fifo_cntl.rxtrigger, BASE_HEX);
bx_list_c *lcntl = new bx_list_c(port, "line_cntl", 7);
new bx_shadow_num_c(lcntl, "wordlen_sel", &BX_SER_THIS s[i].line_cntl.wordlen_sel, BASE_HEX);
new bx_shadow_bool_c(lcntl, "stopbits", &BX_SER_THIS s[i].line_cntl.stopbits);
new bx_shadow_bool_c(lcntl, "parity_enable", &BX_SER_THIS s[i].line_cntl.parity_enable);
new bx_shadow_bool_c(lcntl, "evenparity_sel", &BX_SER_THIS s[i].line_cntl.evenparity_sel);
new bx_shadow_bool_c(lcntl, "stick_parity", &BX_SER_THIS s[i].line_cntl.stick_parity);
new bx_shadow_bool_c(lcntl, "break_cntl", &BX_SER_THIS s[i].line_cntl.break_cntl);
new bx_shadow_bool_c(lcntl, "dlab", &BX_SER_THIS s[i].line_cntl.dlab);
bx_list_c *mcntl = new bx_list_c(port, "modem_cntl", 5);
new bx_shadow_bool_c(mcntl, "dtr", &BX_SER_THIS s[i].modem_cntl.dtr);
new bx_shadow_bool_c(mcntl, "rts", &BX_SER_THIS s[i].modem_cntl.rts);
new bx_shadow_bool_c(mcntl, "out1", &BX_SER_THIS s[i].modem_cntl.out1);
new bx_shadow_bool_c(mcntl, "out2", &BX_SER_THIS s[i].modem_cntl.out2);
new bx_shadow_bool_c(mcntl, "local_loopback", &BX_SER_THIS s[i].modem_cntl.local_loopback);
bx_list_c *lstatus = new bx_list_c(port, "line_status", 8);
new bx_shadow_bool_c(lstatus, "rxdata_ready", &BX_SER_THIS s[i].line_status.rxdata_ready);
new bx_shadow_bool_c(lstatus, "overrun_error", &BX_SER_THIS s[i].line_status.overrun_error);
new bx_shadow_bool_c(lstatus, "parity_error", &BX_SER_THIS s[i].line_status.parity_error);
new bx_shadow_bool_c(lstatus, "framing_error", &BX_SER_THIS s[i].line_status.framing_error);
new bx_shadow_bool_c(lstatus, "break_int", &BX_SER_THIS s[i].line_status.break_int);
new bx_shadow_bool_c(lstatus, "thr_empty", &BX_SER_THIS s[i].line_status.thr_empty);
new bx_shadow_bool_c(lstatus, "tsr_empty", &BX_SER_THIS s[i].line_status.tsr_empty);
new bx_shadow_bool_c(lstatus, "fifo_error", &BX_SER_THIS s[i].line_status.fifo_error);
bx_list_c *mstatus = new bx_list_c(port, "modem_status", 8);
new bx_shadow_bool_c(mstatus, "delta_cts", &BX_SER_THIS s[i].modem_status.delta_cts);
new bx_shadow_bool_c(mstatus, "delta_dsr", &BX_SER_THIS s[i].modem_status.delta_dsr);
new bx_shadow_bool_c(mstatus, "ri_trailedge", &BX_SER_THIS s[i].modem_status.ri_trailedge);
new bx_shadow_bool_c(mstatus, "delta_dcd", &BX_SER_THIS s[i].modem_status.delta_dcd);
new bx_shadow_bool_c(mstatus, "cts", &BX_SER_THIS s[i].modem_status.cts);
new bx_shadow_bool_c(mstatus, "dsr", &BX_SER_THIS s[i].modem_status.dsr);
new bx_shadow_bool_c(mstatus, "ri", &BX_SER_THIS s[i].modem_status.ri);
new bx_shadow_bool_c(mstatus, "dcd", &BX_SER_THIS s[i].modem_status.dcd);
new bx_shadow_num_c(port, "scratch", &BX_SER_THIS s[i].scratch, BASE_HEX);
new bx_shadow_num_c(port, "tsrbuffer", &BX_SER_THIS s[i].tsrbuffer, BASE_HEX);
bx_list_c *rxfifo = new bx_list_c(port, "rx_fifo", 16);
for (j=0; j<16; j++) {
sprintf(name, "0x%02x", j);
new bx_shadow_num_c(rxfifo, name, &BX_SER_THIS s[i].rx_fifo[j], BASE_HEX);
}
bx_list_c *txfifo = new bx_list_c(port, "tx_fifo", 16);
for (j=0; j<16; j++) {
sprintf(name, "0x%02x", j);
new bx_shadow_num_c(txfifo, name, &BX_SER_THIS s[i].tx_fifo[j], BASE_HEX);
}
new bx_shadow_num_c(port, "divisor_lsb", &BX_SER_THIS s[i].divisor_lsb, BASE_HEX);
new bx_shadow_num_c(port, "divisor_msb", &BX_SER_THIS s[i].divisor_msb, BASE_HEX);
}
new bx_shadow_num_c(list, "detect_mouse", &BX_SER_THIS detect_mouse);
new bx_shadow_num_c(list, "mouse_delayed_dx", &BX_SER_THIS mouse_delayed_dx);
new bx_shadow_num_c(list, "mouse_delayed_dy", &BX_SER_THIS mouse_delayed_dy);
new bx_shadow_num_c(list, "mouse_delayed_dz", &BX_SER_THIS mouse_delayed_dz);
bx_list_c *mousebuf = new bx_list_c(list, "mouse_internal_buffer", 3);
new bx_shadow_num_c(mousebuf, "num_elements", &BX_SER_THIS mouse_internal_buffer.num_elements);
bx_list_c *buffer = new bx_list_c(mousebuf, "buffer", BX_MOUSE_BUFF_SIZE);
for (i=0; i<BX_MOUSE_BUFF_SIZE; i++) {
sprintf(name, "0x%02x", i);
new bx_shadow_num_c(buffer, name, &BX_SER_THIS mouse_internal_buffer.buffer[i], BASE_HEX);
}
new bx_shadow_num_c(mousebuf, "head", &BX_SER_THIS mouse_internal_buffer.head);
}
void bx_serial_c::lower_interrupt(Bit8u port)
{
/* If there are no more ints pending, clear the irq */
if ((BX_SER_THIS s[port].rx_interrupt == 0) &&
(BX_SER_THIS s[port].tx_interrupt == 0) &&
(BX_SER_THIS s[port].ls_interrupt == 0) &&
(BX_SER_THIS s[port].ms_interrupt == 0) &&
(BX_SER_THIS s[port].fifo_interrupt == 0)) {
DEV_pic_lower_irq(BX_SER_THIS s[port].IRQ);
}
}
void bx_serial_c::raise_interrupt(Bit8u port, int type)
{
bx_bool gen_int = 0;
switch (type) {
case BX_SER_INT_IER: /* IER has changed */
gen_int = 1;
break;
case BX_SER_INT_RXDATA:
if (BX_SER_THIS s[port].int_enable.rxdata_enable) {
BX_SER_THIS s[port].rx_interrupt = 1;
gen_int = 1;
} else {
BX_SER_THIS s[port].rx_ipending = 1;
}
break;
case BX_SER_INT_TXHOLD:
if (BX_SER_THIS s[port].int_enable.txhold_enable) {
BX_SER_THIS s[port].tx_interrupt = 1;
gen_int = 1;
}
break;
case BX_SER_INT_RXLSTAT:
if (BX_SER_THIS s[port].int_enable.rxlstat_enable) {
BX_SER_THIS s[port].ls_interrupt = 1;
gen_int = 1;
} else {
BX_SER_THIS s[port].ls_ipending = 1;
}
break;
case BX_SER_INT_MODSTAT:
if ((BX_SER_THIS s[port].ms_ipending == 1) &&
(BX_SER_THIS s[port].int_enable.modstat_enable == 1)) {
BX_SER_THIS s[port].ms_interrupt = 1;
BX_SER_THIS s[port].ms_ipending = 0;
gen_int = 1;
}
break;
case BX_SER_INT_FIFO:
if (BX_SER_THIS s[port].int_enable.rxdata_enable) {
BX_SER_THIS s[port].fifo_interrupt = 1;
gen_int = 1;
} else {
BX_SER_THIS s[port].fifo_ipending = 1;
}
break;
}
if (gen_int && BX_SER_THIS s[port].modem_cntl.out2) {
DEV_pic_raise_irq(BX_SER_THIS s[port].IRQ);
}
}
// static IO port read callback handler
// redirects to non-static class handler to avoid virtual functions
Bit32u bx_serial_c::read_handler(void *this_ptr, Bit32u address, unsigned io_len)
{
#if !BX_USE_SER_SMF
bx_serial_c *class_ptr = (bx_serial_c *) this_ptr;
return class_ptr->read(address, io_len);
}
Bit32u bx_serial_c::read(Bit32u address, unsigned io_len)
{
#else
UNUSED(this_ptr);
#endif // !BX_USE_SER_SMF
Bit8u offset, val;
Bit8u port = 0;
offset = address & 0x07;
switch (address & 0x03f8) {
case 0x03f8: port = 0; break;
case 0x02f8: port = 1; break;
case 0x03e8: port = 2; break;
case 0x02e8: port = 3; break;
}
switch (offset) {
case BX_SER_RBR: /* receive buffer, or divisor latch LSB if DLAB set */
if (BX_SER_THIS s[port].line_cntl.dlab) {
val = BX_SER_THIS s[port].divisor_lsb;
} else {
if (BX_SER_THIS s[port].fifo_cntl.enable) {
val = BX_SER_THIS s[port].rx_fifo[0];
if (BX_SER_THIS s[port].rx_fifo_end > 0) {
memcpy(&BX_SER_THIS s[port].rx_fifo[0], &BX_SER_THIS s[port].rx_fifo[1], 15);
BX_SER_THIS s[port].rx_fifo_end--;
}
if (BX_SER_THIS s[port].rx_fifo_end == 0) {
BX_SER_THIS s[port].line_status.rxdata_ready = 0;
BX_SER_THIS s[port].rx_interrupt = 0;
BX_SER_THIS s[port].rx_ipending = 0;
BX_SER_THIS s[port].fifo_interrupt = 0;
BX_SER_THIS s[port].fifo_ipending = 0;
lower_interrupt(port);
}
} else {
val = BX_SER_THIS s[port].rxbuffer;
BX_SER_THIS s[port].line_status.rxdata_ready = 0;
BX_SER_THIS s[port].rx_interrupt = 0;
BX_SER_THIS s[port].rx_ipending = 0;
lower_interrupt(port);
}
}
break;
case BX_SER_IER: /* interrupt enable register, or div. latch MSB */
if (BX_SER_THIS s[port].line_cntl.dlab) {
val = BX_SER_THIS s[port].divisor_msb;
} else {
val = BX_SER_THIS s[port].int_enable.rxdata_enable |
(BX_SER_THIS s[port].int_enable.txhold_enable << 1) |
(BX_SER_THIS s[port].int_enable.rxlstat_enable << 2) |
(BX_SER_THIS s[port].int_enable.modstat_enable << 3);
}
break;
case BX_SER_IIR: /* interrupt ID register */
/*
* Set the interrupt ID based on interrupt source
*/
if (BX_SER_THIS s[port].ls_interrupt) {
BX_SER_THIS s[port].int_ident.int_ID = 0x3;
BX_SER_THIS s[port].int_ident.ipending = 0;
} else if (BX_SER_THIS s[port].fifo_interrupt) {
BX_SER_THIS s[port].int_ident.int_ID = 0x6;
BX_SER_THIS s[port].int_ident.ipending = 0;
} else if (BX_SER_THIS s[port].rx_interrupt) {
BX_SER_THIS s[port].int_ident.int_ID = 0x2;
BX_SER_THIS s[port].int_ident.ipending = 0;
} else if (BX_SER_THIS s[port].tx_interrupt) {
BX_SER_THIS s[port].int_ident.int_ID = 0x1;
BX_SER_THIS s[port].int_ident.ipending = 0;
} else if (BX_SER_THIS s[port].ms_interrupt) {
BX_SER_THIS s[port].int_ident.int_ID = 0x0;
BX_SER_THIS s[port].int_ident.ipending = 0;
} else {
BX_SER_THIS s[port].int_ident.int_ID = 0x0;
BX_SER_THIS s[port].int_ident.ipending = 1;
}
BX_SER_THIS s[port].tx_interrupt = 0;
lower_interrupt(port);
val = BX_SER_THIS s[port].int_ident.ipending |
(BX_SER_THIS s[port].int_ident.int_ID << 1) |
(BX_SER_THIS s[port].fifo_cntl.enable ? 0xc0 : 0x00);
break;
case BX_SER_LCR: /* Line control register */
val = BX_SER_THIS s[port].line_cntl.wordlen_sel |
(BX_SER_THIS s[port].line_cntl.stopbits << 2) |
(BX_SER_THIS s[port].line_cntl.parity_enable << 3) |
(BX_SER_THIS s[port].line_cntl.evenparity_sel << 4) |
(BX_SER_THIS s[port].line_cntl.stick_parity << 5) |
(BX_SER_THIS s[port].line_cntl.break_cntl << 6) |
(BX_SER_THIS s[port].line_cntl.dlab << 7);
break;
case BX_SER_MCR: /* MODEM control register */
val = BX_SER_THIS s[port].modem_cntl.dtr |
(BX_SER_THIS s[port].modem_cntl.rts << 1) |
(BX_SER_THIS s[port].modem_cntl.out1 << 2) |
(BX_SER_THIS s[port].modem_cntl.out2 << 3) |
(BX_SER_THIS s[port].modem_cntl.local_loopback << 4);
break;
case BX_SER_LSR: /* Line status register */
val = BX_SER_THIS s[port].line_status.rxdata_ready |
(BX_SER_THIS s[port].line_status.overrun_error << 1) |
(BX_SER_THIS s[port].line_status.parity_error << 2) |
(BX_SER_THIS s[port].line_status.framing_error << 3) |
(BX_SER_THIS s[port].line_status.break_int << 4) |
(BX_SER_THIS s[port].line_status.thr_empty << 5) |
(BX_SER_THIS s[port].line_status.tsr_empty << 6) |
(BX_SER_THIS s[port].line_status.fifo_error << 7);
BX_SER_THIS s[port].line_status.overrun_error = 0;
BX_SER_THIS s[port].line_status.framing_error = 0;
BX_SER_THIS s[port].line_status.break_int = 0;
BX_SER_THIS s[port].ls_interrupt = 0;
BX_SER_THIS s[port].ls_ipending = 0;
lower_interrupt(port);
break;
case BX_SER_MSR: /* MODEM status register */
#if USE_RAW_SERIAL
if (BX_SER_THIS s[port].io_mode == BX_SER_MODE_RAW) {
bx_bool prev_cts = BX_SER_THIS s[port].modem_status.cts;
bx_bool prev_dsr = BX_SER_THIS s[port].modem_status.dsr;
bx_bool prev_ri = BX_SER_THIS s[port].modem_status.ri;
bx_bool prev_dcd = BX_SER_THIS s[port].modem_status.dcd;
val = BX_SER_THIS s[port].raw->get_modem_status();
BX_SER_THIS s[port].modem_status.cts = (val & 0x10) >> 4;
BX_SER_THIS s[port].modem_status.dsr = (val & 0x20) >> 5;
BX_SER_THIS s[port].modem_status.ri = (val & 0x40) >> 6;
BX_SER_THIS s[port].modem_status.dcd = (val & 0x80) >> 7;
if (BX_SER_THIS s[port].modem_status.cts != prev_cts) {
BX_SER_THIS s[port].modem_status.delta_cts = 1;
}
if (BX_SER_THIS s[port].modem_status.dsr != prev_dsr) {
BX_SER_THIS s[port].modem_status.delta_dsr = 1;
}
if ((BX_SER_THIS s[port].modem_status.ri == 0) && (prev_ri == 1))
BX_SER_THIS s[port].modem_status.ri_trailedge = 1;
if (BX_SER_THIS s[port].modem_status.dcd != prev_dcd) {
BX_SER_THIS s[port].modem_status.delta_dcd = 1;
}
}
#endif
val = BX_SER_THIS s[port].modem_status.delta_cts |
(BX_SER_THIS s[port].modem_status.delta_dsr << 1) |
(BX_SER_THIS s[port].modem_status.ri_trailedge << 2) |
(BX_SER_THIS s[port].modem_status.delta_dcd << 3) |
(BX_SER_THIS s[port].modem_status.cts << 4) |
(BX_SER_THIS s[port].modem_status.dsr << 5) |
(BX_SER_THIS s[port].modem_status.ri << 6) |
(BX_SER_THIS s[port].modem_status.dcd << 7);
BX_SER_THIS s[port].modem_status.delta_cts = 0;
BX_SER_THIS s[port].modem_status.delta_dsr = 0;
BX_SER_THIS s[port].modem_status.ri_trailedge = 0;
BX_SER_THIS s[port].modem_status.delta_dcd = 0;
BX_SER_THIS s[port].ms_interrupt = 0;
BX_SER_THIS s[port].ms_ipending = 0;
lower_interrupt(port);
break;
case BX_SER_SCR: /* scratch register */
val = BX_SER_THIS s[port].scratch;
break;
default:
val = 0; // keep compiler happy
BX_PANIC(("unsupported io read from address=0x%04x!", address));
break;
}
BX_DEBUG(("com%d register read from address: 0x%04x = 0x%02x", port+1, address, val));
return(val);
}
// static IO port write callback handler
// redirects to non-static class handler to avoid virtual functions
void bx_serial_c::write_handler(void *this_ptr, Bit32u address, Bit32u value, unsigned io_len)
{
#if !BX_USE_SER_SMF
bx_serial_c *class_ptr = (bx_serial_c *) this_ptr;
class_ptr->write(address, value, io_len);
}
void bx_serial_c::write(Bit32u address, Bit32u value, unsigned io_len)
{
#else
UNUSED(this_ptr);
#endif // !BX_USE_SER_SMF
bx_bool gen_int = 0;
Bit8u offset, new_wordlen;
#if USE_RAW_SERIAL
bx_bool mcr_changed = 0;
Bit8u p_mode;
#endif
Bit8u port = 0;
offset = address & 0x07;
switch (address & 0x03f8) {
case 0x03f8: port = 0; break;
case 0x02f8: port = 1; break;
case 0x03e8: port = 2; break;
case 0x02e8: port = 3; break;
}
BX_DEBUG(("com%d register write to address: 0x%04x = 0x%02x", port+1, address, value));
bx_bool new_b0 = value & 0x01;
bx_bool new_b1 = (value & 0x02) >> 1;
bx_bool new_b2 = (value & 0x04) >> 2;
bx_bool new_b3 = (value & 0x08) >> 3;
bx_bool new_b4 = (value & 0x10) >> 4;
bx_bool new_b5 = (value & 0x20) >> 5;
bx_bool new_b6 = (value & 0x40) >> 6;
bx_bool new_b7 = (value & 0x80) >> 7;
switch (offset) {
case BX_SER_THR: /* transmit buffer, or divisor latch LSB if DLAB set */
if (BX_SER_THIS s[port].line_cntl.dlab) {
BX_SER_THIS s[port].divisor_lsb = value;
if ((value != 0) || (BX_SER_THIS s[port].divisor_msb != 0)) {
BX_SER_THIS s[port].baudrate = (int) (BX_PC_CLOCK_XTL /
(16 * ((BX_SER_THIS s[port].divisor_msb << 8) |
BX_SER_THIS s[port].divisor_lsb)));
}
} else {
Bit8u bitmask = 0xff >> (3 - BX_SER_THIS s[port].line_cntl.wordlen_sel);
if (BX_SER_THIS s[port].line_status.thr_empty) {
if (BX_SER_THIS s[port].fifo_cntl.enable) {
BX_SER_THIS s[port].tx_fifo[BX_SER_THIS s[port].tx_fifo_end++] = value & bitmask;
} else {
BX_SER_THIS s[port].thrbuffer = value & bitmask;
}
BX_SER_THIS s[port].line_status.thr_empty = 0;
if (BX_SER_THIS s[port].line_status.tsr_empty) {
if (BX_SER_THIS s[port].fifo_cntl.enable) {
BX_SER_THIS s[port].tsrbuffer = BX_SER_THIS s[port].tx_fifo[0];
memcpy(&BX_SER_THIS s[port].tx_fifo[0], &BX_SER_THIS s[port].tx_fifo[1], 15);
BX_SER_THIS s[port].line_status.thr_empty = (--BX_SER_THIS s[port].tx_fifo_end == 0);
} else {
BX_SER_THIS s[port].tsrbuffer = BX_SER_THIS s[port].thrbuffer;
BX_SER_THIS s[port].line_status.thr_empty = 1;
}
BX_SER_THIS s[port].line_status.tsr_empty = 0;
raise_interrupt(port, BX_SER_INT_TXHOLD);
bx_pc_system.activate_timer(BX_SER_THIS s[port].tx_timer_index,
(int) (1000000.0 / BX_SER_THIS s[port].baudrate *
(BX_SER_THIS s[port].line_cntl.wordlen_sel + 5)),
0); /* not continuous */
} else {
BX_SER_THIS s[port].tx_interrupt = 0;
lower_interrupt(port);
}
} else {
if (BX_SER_THIS s[port].fifo_cntl.enable) {
if (BX_SER_THIS s[port].tx_fifo_end < 16) {
BX_SER_THIS s[port].tx_fifo[BX_SER_THIS s[port].tx_fifo_end++] = value & bitmask;
} else {
BX_ERROR(("com%d: transmit FIFO overflow", port+1));
}
} else {
BX_ERROR(("com%d: write to tx hold register when not empty", port+1));
}
}
}
break;
case BX_SER_IER: /* interrupt enable register, or div. latch MSB */
if (BX_SER_THIS s[port].line_cntl.dlab) {
BX_SER_THIS s[port].divisor_msb = value;
if ((value != 0) || (BX_SER_THIS s[port].divisor_lsb != 0)) {
BX_SER_THIS s[port].baudrate = (int) (BX_PC_CLOCK_XTL /
(16 * ((BX_SER_THIS s[port].divisor_msb << 8) |
BX_SER_THIS s[port].divisor_lsb)));
}
} else {
if (new_b3 != BX_SER_THIS s[port].int_enable.modstat_enable) {
BX_SER_THIS s[port].int_enable.modstat_enable = new_b3;
if (BX_SER_THIS s[port].int_enable.modstat_enable == 1) {
if (BX_SER_THIS s[port].ms_ipending == 1) {
BX_SER_THIS s[port].ms_interrupt = 1;
BX_SER_THIS s[port].ms_ipending = 0;
gen_int = 1;
}
} else {
if (BX_SER_THIS s[port].ms_interrupt == 1) {
BX_SER_THIS s[port].ms_interrupt = 0;
BX_SER_THIS s[port].ms_ipending = 1;
lower_interrupt(port);
}
}
}
if (new_b1 != BX_SER_THIS s[port].int_enable.txhold_enable) {
BX_SER_THIS s[port].int_enable.txhold_enable = new_b1;
if (BX_SER_THIS s[port].int_enable.txhold_enable == 1) {
BX_SER_THIS s[port].tx_interrupt = BX_SER_THIS s[port].line_status.thr_empty;
if (BX_SER_THIS s[port].tx_interrupt) gen_int = 1;
} else {
BX_SER_THIS s[port].tx_interrupt = 0;
lower_interrupt(port);
}
}
if (new_b0 != BX_SER_THIS s[port].int_enable.rxdata_enable) {
BX_SER_THIS s[port].int_enable.rxdata_enable = new_b0;
if (BX_SER_THIS s[port].int_enable.rxdata_enable == 1) {
if (BX_SER_THIS s[port].fifo_ipending == 1) {
BX_SER_THIS s[port].fifo_interrupt = 1;
BX_SER_THIS s[port].fifo_ipending = 0;
gen_int = 1;
}
if (BX_SER_THIS s[port].rx_ipending == 1) {
BX_SER_THIS s[port].rx_interrupt = 1;
BX_SER_THIS s[port].rx_ipending = 0;
gen_int = 1;
}
} else {
if (BX_SER_THIS s[port].rx_interrupt == 1) {
BX_SER_THIS s[port].rx_interrupt = 0;
BX_SER_THIS s[port].rx_ipending = 1;
lower_interrupt(port);
}
if (BX_SER_THIS s[port].fifo_interrupt == 1) {
BX_SER_THIS s[port].fifo_interrupt = 0;
BX_SER_THIS s[port].fifo_ipending = 1;
lower_interrupt(port);
}
}
}
if (new_b2 != BX_SER_THIS s[port].int_enable.rxlstat_enable) {
BX_SER_THIS s[port].int_enable.rxlstat_enable = new_b2;
if (BX_SER_THIS s[port].int_enable.rxlstat_enable == 1) {
if (BX_SER_THIS s[port].ls_ipending == 1) {
BX_SER_THIS s[port].ls_interrupt = 1;
BX_SER_THIS s[port].ls_ipending = 0;
gen_int = 1;
}
} else {
if (BX_SER_THIS s[port].ls_interrupt == 1) {
BX_SER_THIS s[port].ls_interrupt = 0;
BX_SER_THIS s[port].ls_ipending = 1;
lower_interrupt(port);
}
}
}
if (gen_int) raise_interrupt(port, BX_SER_INT_IER);
}
break;
case BX_SER_FCR: /* FIFO control register */
if (new_b0 && !BX_SER_THIS s[port].fifo_cntl.enable) {
BX_INFO(("com%d: FIFO enabled", port+1));
BX_SER_THIS s[port].rx_fifo_end = 0;
BX_SER_THIS s[port].tx_fifo_end = 0;
}
BX_SER_THIS s[port].fifo_cntl.enable = new_b0;
if (new_b1) {
BX_SER_THIS s[port].rx_fifo_end = 0;
}
if (new_b2) {
BX_SER_THIS s[port].tx_fifo_end = 0;
}
BX_SER_THIS s[port].fifo_cntl.rxtrigger = (value & 0xc0) >> 6;
break;
case BX_SER_LCR: /* Line control register */
new_wordlen = value & 0x03;
#if USE_RAW_SERIAL
if (BX_SER_THIS s[port].io_mode == BX_SER_MODE_RAW) {
if (BX_SER_THIS s[port].line_cntl.wordlen_sel != new_wordlen) {
BX_SER_THIS s[port].raw->set_data_bits(new_wordlen + 5);
}
if (new_b2 != BX_SER_THIS s[port].line_cntl.stopbits) {
BX_SER_THIS s[port].raw->set_stop_bits(new_b2 ? 2 : 1);
}
if ((new_b3 != BX_SER_THIS s[port].line_cntl.parity_enable) ||
(new_b4 != BX_SER_THIS s[port].line_cntl.evenparity_sel) ||
(new_b5 != BX_SER_THIS s[port].line_cntl.stick_parity)) {
if (new_b3 == 0) {
p_mode = P_NONE;
} else {
p_mode = ((value & 0x30) >> 4) + 1;
}
BX_SER_THIS s[port].raw->set_parity_mode(p_mode);
}
if ((new_b6 != BX_SER_THIS s[port].line_cntl.break_cntl) &&
(!BX_SER_THIS s[port].modem_cntl.local_loopback)) {
BX_SER_THIS s[port].raw->set_break(new_b6);
}
}
#endif // USE_RAW_SERIAL
BX_SER_THIS s[port].line_cntl.wordlen_sel = new_wordlen;
/* These are ignored, but set them up so they can be read back */
BX_SER_THIS s[port].line_cntl.stopbits = new_b2;
BX_SER_THIS s[port].line_cntl.parity_enable = new_b3;
BX_SER_THIS s[port].line_cntl.evenparity_sel = new_b4;
BX_SER_THIS s[port].line_cntl.stick_parity = new_b5;
BX_SER_THIS s[port].line_cntl.break_cntl = new_b6;
if (BX_SER_THIS s[port].modem_cntl.local_loopback &&
BX_SER_THIS s[port].line_cntl.break_cntl) {
BX_SER_THIS s[port].line_status.break_int = 1;
BX_SER_THIS s[port].line_status.framing_error = 1;
rx_fifo_enq(port, 0x00);
}
/* used when doing future writes */
if (!new_b7 && BX_SER_THIS s[port].line_cntl.dlab) {
// Start the receive polling process if not already started
// and there is a valid baudrate.
if (BX_SER_THIS s[port].rx_pollstate == BX_SER_RXIDLE &&
BX_SER_THIS s[port].baudrate != 0) {
BX_SER_THIS s[port].rx_pollstate = BX_SER_RXPOLL;
bx_pc_system.activate_timer(BX_SER_THIS s[port].rx_timer_index,
(int) (1000000.0 / BX_SER_THIS s[port].baudrate *
(BX_SER_THIS s[port].line_cntl.wordlen_sel + 5)),
0); /* not continuous */
}
#if USE_RAW_SERIAL
if (BX_SER_THIS s[port].io_mode == BX_SER_MODE_RAW) {
BX_SER_THIS s[port].raw->set_baudrate(BX_SER_THIS s[port].baudrate);
}
#endif // USE_RAW_SERIAL
BX_DEBUG(("com%d: baud rate set - %d", port+1, BX_SER_THIS s[port].baudrate));
}
BX_SER_THIS s[port].line_cntl.dlab = new_b7;
break;
case BX_SER_MCR: /* MODEM control register */
if ((BX_SER_THIS s[port].io_mode == BX_SER_MODE_MOUSE) &&
((BX_SER_THIS s[port].line_cntl.wordlen_sel == 2) ||
(BX_SER_THIS s[port].line_cntl.wordlen_sel == 3))) {
if (new_b0 && !new_b1) BX_SER_THIS detect_mouse = 1;
if (new_b0 && new_b1 && (BX_SER_THIS detect_mouse == 1)) BX_SER_THIS detect_mouse = 2;
}
#if USE_RAW_SERIAL
if (BX_SER_THIS s[port].io_mode == BX_SER_MODE_RAW) {
mcr_changed = (BX_SER_THIS s[port].modem_cntl.dtr != new_b0) |
(BX_SER_THIS s[port].modem_cntl.rts != new_b1);
}
#endif
BX_SER_THIS s[port].modem_cntl.dtr = new_b0;
BX_SER_THIS s[port].modem_cntl.rts = new_b1;
BX_SER_THIS s[port].modem_cntl.out1 = new_b2;
BX_SER_THIS s[port].modem_cntl.out2 = new_b3;
if (new_b4 != BX_SER_THIS s[port].modem_cntl.local_loopback) {
BX_SER_THIS s[port].modem_cntl.local_loopback = new_b4;
if (BX_SER_THIS s[port].modem_cntl.local_loopback) {
/* transition to loopback mode */
#if USE_RAW_SERIAL
if (BX_SER_THIS s[port].io_mode == BX_SER_MODE_RAW) {
if (BX_SER_THIS s[port].modem_cntl.dtr ||
BX_SER_THIS s[port].modem_cntl.rts) {
BX_SER_THIS s[port].raw->set_modem_control(0);
}
}
#endif
if (BX_SER_THIS s[port].line_cntl.break_cntl) {
#if USE_RAW_SERIAL
if (BX_SER_THIS s[port].io_mode == BX_SER_MODE_RAW) {
BX_SER_THIS s[port].raw->set_break(0);
}
#endif
BX_SER_THIS s[port].line_status.break_int = 1;
BX_SER_THIS s[port].line_status.framing_error = 1;
rx_fifo_enq(port, 0x00);
}
}
else {
/* transition to normal mode */
#if USE_RAW_SERIAL
if (BX_SER_THIS s[port].io_mode == BX_SER_MODE_RAW) {
mcr_changed = 1;
if (BX_SER_THIS s[port].line_cntl.break_cntl) {
BX_SER_THIS s[port].raw->set_break(0);
}
}
#endif
}
}
if (BX_SER_THIS s[port].modem_cntl.local_loopback) {
bx_bool prev_cts = BX_SER_THIS s[port].modem_status.cts;
bx_bool prev_dsr = BX_SER_THIS s[port].modem_status.dsr;
bx_bool prev_ri = BX_SER_THIS s[port].modem_status.ri;
bx_bool prev_dcd = BX_SER_THIS s[port].modem_status.dcd;
BX_SER_THIS s[port].modem_status.cts = BX_SER_THIS s[port].modem_cntl.rts;
BX_SER_THIS s[port].modem_status.dsr = BX_SER_THIS s[port].modem_cntl.dtr;
BX_SER_THIS s[port].modem_status.ri = BX_SER_THIS s[port].modem_cntl.out1;
BX_SER_THIS s[port].modem_status.dcd = BX_SER_THIS s[port].modem_cntl.out2;
if (BX_SER_THIS s[port].modem_status.cts != prev_cts) {
BX_SER_THIS s[port].modem_status.delta_cts = 1;
BX_SER_THIS s[port].ms_ipending = 1;
}
if (BX_SER_THIS s[port].modem_status.dsr != prev_dsr) {
BX_SER_THIS s[port].modem_status.delta_dsr = 1;
BX_SER_THIS s[port].ms_ipending = 1;
}
if (BX_SER_THIS s[port].modem_status.ri != prev_ri)
BX_SER_THIS s[port].ms_ipending = 1;
if ((BX_SER_THIS s[port].modem_status.ri == 0) && (prev_ri == 1))
BX_SER_THIS s[port].modem_status.ri_trailedge = 1;
if (BX_SER_THIS s[port].modem_status.dcd != prev_dcd) {
BX_SER_THIS s[port].modem_status.delta_dcd = 1;
BX_SER_THIS s[port].ms_ipending = 1;
}
raise_interrupt(port, BX_SER_INT_MODSTAT);
} else {
if (BX_SER_THIS s[port].io_mode == BX_SER_MODE_MOUSE) {
if (BX_SER_THIS detect_mouse == 2) {
if ((BX_SER_THIS mouse_type == BX_MOUSE_TYPE_SERIAL) ||
(BX_SER_THIS mouse_type == BX_MOUSE_TYPE_SERIAL_MSYS)) {
BX_SER_THIS mouse_internal_buffer.head = 0;
BX_SER_THIS mouse_internal_buffer.num_elements = 1;
BX_SER_THIS mouse_internal_buffer.buffer[0] = 'M';
} else if (BX_SER_THIS mouse_type == BX_MOUSE_TYPE_SERIAL_WHEEL) {
BX_SER_THIS mouse_internal_buffer.head = 0;
BX_SER_THIS mouse_internal_buffer.num_elements = 6;
BX_SER_THIS mouse_internal_buffer.buffer[0] = 'M';
BX_SER_THIS mouse_internal_buffer.buffer[1] = 'Z';
BX_SER_THIS mouse_internal_buffer.buffer[2] = '@';
BX_SER_THIS mouse_internal_buffer.buffer[3] = '\0';
BX_SER_THIS mouse_internal_buffer.buffer[4] = '\0';
BX_SER_THIS mouse_internal_buffer.buffer[5] = '\0';
}
BX_SER_THIS detect_mouse = 0;
}
}
if (BX_SER_THIS s[port].io_mode == BX_SER_MODE_RAW) {
#if USE_RAW_SERIAL
if (mcr_changed) {
BX_SER_THIS s[port].raw->set_modem_control(value & 0x03);
}
#endif
}
else
{
/* simulate device connected */
BX_SER_THIS s[port].modem_status.cts = 1;
BX_SER_THIS s[port].modem_status.dsr = 1;
BX_SER_THIS s[port].modem_status.ri = 0;
BX_SER_THIS s[port].modem_status.dcd = 0;
}
}
break;
case BX_SER_LSR: /* Line status register */
BX_ERROR(("com%d: write to line status register ignored", port+1));
break;
case BX_SER_MSR: /* MODEM status register */
BX_ERROR(("com%d: write to MODEM status register ignored", port+1));
break;
case BX_SER_SCR: /* scratch register */
BX_SER_THIS s[port].scratch = value;
break;
default:
BX_PANIC(("unsupported io write to address=0x%04x, value = 0x%02x!",
(unsigned) address, (unsigned) value));
break;
}
}
void bx_serial_c::rx_fifo_enq(Bit8u port, Bit8u data)
{
bx_bool gen_int = 0;
if (BX_SER_THIS s[port].fifo_cntl.enable) {
if (BX_SER_THIS s[port].rx_fifo_end == 16) {
BX_ERROR(("com%d: receive FIFO overflow", port+1));
BX_SER_THIS s[port].line_status.overrun_error = 1;
raise_interrupt(port, BX_SER_INT_RXLSTAT);
} else {
BX_SER_THIS s[port].rx_fifo[BX_SER_THIS s[port].rx_fifo_end++] = data;
switch (BX_SER_THIS s[port].fifo_cntl.rxtrigger) {
case 1:
if (BX_SER_THIS s[port].rx_fifo_end == 4) gen_int = 1;
break;
case 2:
if (BX_SER_THIS s[port].rx_fifo_end == 8) gen_int = 1;
break;
case 3:
if (BX_SER_THIS s[port].rx_fifo_end == 14) gen_int = 1;
break;
default:
gen_int = 1;
}
if (gen_int) {
bx_pc_system.deactivate_timer(BX_SER_THIS s[port].fifo_timer_index);
BX_SER_THIS s[port].line_status.rxdata_ready = 1;
raise_interrupt(port, BX_SER_INT_RXDATA);
} else {
bx_pc_system.activate_timer(BX_SER_THIS s[port].fifo_timer_index,
(int) (1000000.0 / BX_SER_THIS s[port].baudrate *
(BX_SER_THIS s[port].line_cntl.wordlen_sel + 5) * 16),
0); /* not continuous */
}
}
} else {
if (BX_SER_THIS s[port].line_status.rxdata_ready == 1) {
BX_ERROR(("com%d: overrun error", port+1));
BX_SER_THIS s[port].line_status.overrun_error = 1;
raise_interrupt(port, BX_SER_INT_RXLSTAT);
}
BX_SER_THIS s[port].rxbuffer = data;
BX_SER_THIS s[port].line_status.rxdata_ready = 1;
raise_interrupt(port, BX_SER_INT_RXDATA);
}
}
void bx_serial_c::tx_timer_handler(void *this_ptr)
{
bx_serial_c *class_ptr = (bx_serial_c *) this_ptr;
class_ptr->tx_timer();
}
void bx_serial_c::tx_timer(void)
{
bx_bool gen_int = 0;
Bit8u port = 0;
int timer_id;
timer_id = bx_pc_system.triggeredTimerID();
if (timer_id == BX_SER_THIS s[0].tx_timer_index) {
port = 0;
} else if (timer_id == BX_SER_THIS s[1].tx_timer_index) {
port = 1;
} else if (timer_id == BX_SER_THIS s[2].tx_timer_index) {
port = 2;
} else if (timer_id == BX_SER_THIS s[3].tx_timer_index) {
port = 3;
}
if (BX_SER_THIS s[port].modem_cntl.local_loopback) {
rx_fifo_enq(port, BX_SER_THIS s[port].tsrbuffer);
} else {
switch (BX_SER_THIS s[port].io_mode) {
case BX_SER_MODE_FILE:
fputc(BX_SER_THIS s[port].tsrbuffer, BX_SER_THIS s[port].output);
fflush(BX_SER_THIS s[port].output);
break;
case BX_SER_MODE_TERM:
#if defined(SERIAL_ENABLE)
BX_DEBUG(("com%d: write: '%c'", port+1, BX_SER_THIS s[port].tsrbuffer));
if (BX_SER_THIS s[port].tty_id >= 0) {
write(BX_SER_THIS s[port].tty_id, (bx_ptr_t) & BX_SER_THIS s[port].tsrbuffer, 1);
}
#endif
break;
case BX_SER_MODE_RAW:
#if USE_RAW_SERIAL
if (!BX_SER_THIS s[port].raw->ready_transmit())
BX_PANIC(("com%d: not ready to transmit", port+1));
BX_SER_THIS s[port].raw->transmit(BX_SER_THIS s[port].tsrbuffer);
#endif
break;
case BX_SER_MODE_MOUSE:
BX_INFO(("com%d: write to mouse ignored: 0x%02x", port+1, BX_SER_THIS s[port].tsrbuffer));
break;
case BX_SER_MODE_SOCKET:
if (BX_SER_THIS s[port].socket_id >= 0) {
#ifdef WIN32
BX_INFO(("attempting to write win32 : %c", BX_SER_THIS s[port].tsrbuffer));
::send(BX_SER_THIS s[port].socket_id,
(const char*) & BX_SER_THIS s[port].tsrbuffer, 1, 0);
#else
::write(BX_SER_THIS s[port].socket_id,
(bx_ptr_t) & BX_SER_THIS s[port].tsrbuffer, 1);
#endif
}
case BX_SER_MODE_PIPE:
#ifdef WIN32
if (BX_SER_THIS s[port].pipe) {
DWORD written;
WriteFile(BX_SER_THIS s[port].pipe, (bx_ptr_t)& BX_SER_THIS s[port].tsrbuffer, 1, &written, NULL);
}
#endif
break;
}
}
BX_SER_THIS s[port].line_status.tsr_empty = 1;
if (BX_SER_THIS s[port].fifo_cntl.enable && (BX_SER_THIS s[port].tx_fifo_end > 0)) {
BX_SER_THIS s[port].tsrbuffer = BX_SER_THIS s[port].tx_fifo[0];
BX_SER_THIS s[port].line_status.tsr_empty = 0;
memcpy(&BX_SER_THIS s[port].tx_fifo[0], &BX_SER_THIS s[port].tx_fifo[1], 15);
gen_int = (--BX_SER_THIS s[port].tx_fifo_end == 0);
} else if (!BX_SER_THIS s[port].line_status.thr_empty) {
BX_SER_THIS s[port].tsrbuffer = BX_SER_THIS s[port].thrbuffer;
BX_SER_THIS s[port].line_status.tsr_empty = 0;
gen_int = 1;
}
if (!BX_SER_THIS s[port].line_status.tsr_empty) {
if (gen_int) {
BX_SER_THIS s[port].line_status.thr_empty = 1;
raise_interrupt(port, BX_SER_INT_TXHOLD);
}
bx_pc_system.activate_timer(BX_SER_THIS s[port].tx_timer_index,
(int) (1000000.0 / BX_SER_THIS s[port].baudrate *
(BX_SER_THIS s[port].line_cntl.wordlen_sel + 5)),
0); /* not continuous */
}
}
void bx_serial_c::rx_timer_handler(void *this_ptr)
{
bx_serial_c *class_ptr = (bx_serial_c *) this_ptr;
class_ptr->rx_timer();
}
void bx_serial_c::rx_timer(void)
{
#if BX_HAVE_SELECT && defined(SERIAL_ENABLE)
struct timeval tval;
fd_set fds;
#endif
Bit8u port = 0;
int timer_id;
bx_bool data_ready = 0;
timer_id = bx_pc_system.triggeredTimerID();
if (timer_id == BX_SER_THIS s[0].rx_timer_index) {
port = 0;
} else if (timer_id == BX_SER_THIS s[1].rx_timer_index) {
port = 1;
} else if (timer_id == BX_SER_THIS s[2].rx_timer_index) {
port = 2;
} else if (timer_id == BX_SER_THIS s[3].rx_timer_index) {
port = 3;
}
int bdrate = BX_SER_THIS s[port].baudrate / (BX_SER_THIS s[port].line_cntl.wordlen_sel + 5);
unsigned char chbuf = 0;
if (BX_SER_THIS s[port].io_mode == BX_SER_MODE_TERM) {
#if BX_HAVE_SELECT && defined(SERIAL_ENABLE)
tval.tv_sec = 0;
tval.tv_usec = 0;
// MacOS: I'm not sure what to do with this, since I don't know
// what an fd_set is or what FD_SET() or select() do. They aren't
// declared in the CodeWarrior standard library headers. I'm just
// leaving it commented out for the moment.
FD_ZERO(&fds);
if (BX_SER_THIS s[port].tty_id >= 0) FD_SET(BX_SER_THIS s[port].tty_id, &fds);
#endif
}
if ((BX_SER_THIS s[port].line_status.rxdata_ready == 0) ||
(BX_SER_THIS s[port].fifo_cntl.enable)) {
switch (BX_SER_THIS s[port].io_mode) {
case BX_SER_MODE_SOCKET:
#if BX_HAVE_SELECT && defined(SERIAL_ENABLE)
if (BX_SER_THIS s[port].line_status.rxdata_ready == 0) {
tval.tv_sec = 0;
tval.tv_usec = 0;
FD_ZERO(&fds);
SOCKET socketid = BX_SER_THIS s[port].socket_id;
if (socketid >= 0) FD_SET(socketid, &fds);
if ((socketid >= 0) && (select(socketid+1, &fds, NULL, NULL, &tval) == 1)) {
ssize_t bytes = (ssize_t)
#ifdef WIN32
::recv(socketid, (char*) &chbuf, 1, 0);
#else
read(socketid, &chbuf, 1);
#endif
if (bytes > 0) {
BX_INFO((" -- COM %d : read byte [%d]", port+1, chbuf));
data_ready = 1;
}
}
}
#endif
break;
case BX_SER_MODE_RAW:
#if USE_RAW_SERIAL
int data;
if ((data_ready = BX_SER_THIS s[port].raw->ready_receive())) {
data = BX_SER_THIS s[port].raw->receive();
if (data < 0) {
data_ready = 0;
switch (data) {
case RAW_EVENT_BREAK:
BX_SER_THIS s[port].line_status.break_int = 1;
raise_interrupt(port, BX_SER_INT_RXLSTAT);
break;
case RAW_EVENT_FRAME:
BX_SER_THIS s[port].line_status.framing_error = 1;
raise_interrupt(port, BX_SER_INT_RXLSTAT);
break;
case RAW_EVENT_OVERRUN:
BX_SER_THIS s[port].line_status.overrun_error = 1;
raise_interrupt(port, BX_SER_INT_RXLSTAT);
break;
case RAW_EVENT_PARITY:
BX_SER_THIS s[port].line_status.parity_error = 1;
raise_interrupt(port, BX_SER_INT_RXLSTAT);
break;
case RAW_EVENT_CTS_ON:
case RAW_EVENT_CTS_OFF:
case RAW_EVENT_DSR_ON:
case RAW_EVENT_DSR_OFF:
case RAW_EVENT_RING_ON:
case RAW_EVENT_RING_OFF:
case RAW_EVENT_RLSD_ON:
case RAW_EVENT_RLSD_OFF:
raise_interrupt(port, BX_SER_INT_MODSTAT);
break;
}
}
}
if (data_ready) {
chbuf = data;
}
#endif
break;
case BX_SER_MODE_TERM:
#if BX_HAVE_SELECT && defined(SERIAL_ENABLE)
if ((BX_SER_THIS s[port].tty_id >= 0) && (select(BX_SER_THIS s[port].tty_id + 1, &fds, NULL, NULL, &tval) == 1)) {
(void) read(BX_SER_THIS s[port].tty_id, &chbuf, 1);
BX_DEBUG(("com%d: read: '%c'", port+1, chbuf));
data_ready = 1;
}
#endif
break;
case BX_SER_MODE_MOUSE:
if (BX_SER_THIS mouse_internal_buffer.num_elements > 0) {
chbuf = BX_SER_THIS mouse_internal_buffer.buffer[BX_SER_THIS mouse_internal_buffer.head];
BX_SER_THIS mouse_internal_buffer.head = (BX_SER_THIS mouse_internal_buffer.head + 1) %
BX_MOUSE_BUFF_SIZE;
BX_SER_THIS mouse_internal_buffer.num_elements--;
data_ready = 1;
}
break;
case BX_SER_MODE_PIPE:
#ifdef WIN32
DWORD avail = 0;
if (BX_SER_THIS s[port].pipe &&
PeekNamedPipe(BX_SER_THIS s[port].pipe, NULL, 0, NULL, &avail, NULL) &&
avail > 0) {
ReadFile(BX_SER_THIS s[port].pipe, &chbuf, 1, &avail, NULL);
data_ready = 1;
}
#endif
break;
}
if (data_ready) {
if (!BX_SER_THIS s[port].modem_cntl.local_loopback) {
rx_fifo_enq(port, chbuf);
}
} else {
if (!BX_SER_THIS s[port].fifo_cntl.enable) {
bdrate = (int) (1000000.0 / 100000); // Poll frequency is 100ms
}
}
} else {
// Poll at 4x baud rate to see if the next-char can
// be read
bdrate *= 4;
}
bx_pc_system.activate_timer(BX_SER_THIS s[port].rx_timer_index,
(int) (1000000.0 / bdrate), 0); /* not continuous */
}
void bx_serial_c::fifo_timer_handler(void *this_ptr)
{
bx_serial_c *class_ptr = (bx_serial_c *) this_ptr;
class_ptr->fifo_timer();
}
void bx_serial_c::fifo_timer(void)
{
Bit8u port = 0;
int timer_id;
timer_id = bx_pc_system.triggeredTimerID();
if (timer_id == BX_SER_THIS s[0].fifo_timer_index) {
port = 0;
} else if (timer_id == BX_SER_THIS s[1].fifo_timer_index) {
port = 1;
} else if (timer_id == BX_SER_THIS s[2].fifo_timer_index) {
port = 2;
} else if (timer_id == BX_SER_THIS s[3].fifo_timer_index) {
port = 3;
}
BX_SER_THIS s[port].line_status.rxdata_ready = 1;
raise_interrupt(port, BX_SER_INT_FIFO);
}
void bx_serial_c::mouse_enq_static(void *dev, int delta_x, int delta_y, int delta_z, unsigned button_state)
{
((bx_serial_c*)dev)->mouse_enq(delta_x, delta_y, delta_z, button_state);
}
void bx_serial_c::mouse_enq(int delta_x, int delta_y, int delta_z, unsigned button_state)
{
Bit8u b1, b2, b3, mouse_data[5];
int bytes, tail;
if (BX_SER_THIS mouse_port == -1) {
BX_ERROR(("mouse not connected to a serial port"));
return;
}
// if the DTR and RTS lines aren't up, the mouse doesn't have any power to send packets.
if (!BX_SER_THIS s[BX_SER_THIS mouse_port].modem_cntl.dtr || !BX_SER_THIS s[BX_SER_THIS mouse_port].modem_cntl.rts)
return;
// scale down the motion
if ((delta_x < -1) || (delta_x > 1))
delta_x /= 2;
if ((delta_y < -1) || (delta_y > 1))
delta_y /= 2;
if(delta_x>127) delta_x=127;
if(delta_y>127) delta_y=127;
if(delta_x<-128) delta_x=-128;
if(delta_y<-128) delta_y=-128;
BX_SER_THIS mouse_delayed_dx+=delta_x;
BX_SER_THIS mouse_delayed_dy-=delta_y;
BX_SER_THIS mouse_delayed_dz =delta_z;
if ((BX_SER_THIS mouse_internal_buffer.num_elements + 4) >= BX_MOUSE_BUFF_SIZE) {
return; /* buffer doesn't have the space */
}
if (BX_SER_THIS mouse_delayed_dx > 127) {
delta_x = 127;
BX_SER_THIS mouse_delayed_dx -= 127;
} else if (BX_SER_THIS mouse_delayed_dx < -128) {
delta_x = -128;
BX_SER_THIS mouse_delayed_dx += 128;
} else {
delta_x = BX_SER_THIS mouse_delayed_dx;
BX_SER_THIS mouse_delayed_dx = 0;
}
if (BX_SER_THIS mouse_delayed_dy > 127) {
delta_y = 127;
BX_SER_THIS mouse_delayed_dy -= 127;
} else if (BX_SER_THIS mouse_delayed_dy < -128) {
delta_y = -128;
BX_SER_THIS mouse_delayed_dy += 128;
} else {
delta_y = BX_SER_THIS mouse_delayed_dy;
BX_SER_THIS mouse_delayed_dy = 0;
}
if (BX_SER_THIS mouse_type != BX_MOUSE_TYPE_SERIAL_MSYS) {
b1 = (Bit8u) delta_x;
b2 = (Bit8u) delta_y;
b3 = (Bit8u) -((Bit8s) delta_z);
mouse_data[0] = 0x40 | ((b1 & 0xc0) >> 6) | ((b2 & 0xc0) >> 4);
mouse_data[0] |= ((button_state & 0x01) << 5) | ((button_state & 0x02) << 3);
mouse_data[1] = b1 & 0x3f;
mouse_data[2] = b2 & 0x3f;
mouse_data[3] = b3 & 0x0f;
mouse_data[3] |= ((button_state & 0x04) << 2);
bytes = 3;
if (BX_SER_THIS mouse_type == BX_MOUSE_TYPE_SERIAL_WHEEL) bytes = 4;
} else {
b1 = (Bit8u) (delta_x / 2);
b2 = (Bit8u) -((Bit8s) (delta_y / 2));
mouse_data[0] = 0x80 | ((~button_state & 0x01) << 2);
mouse_data[0] |= ((~button_state & 0x06) >> 1);
mouse_data[1] = b1;
mouse_data[2] = b2;
mouse_data[3] = 0;
mouse_data[4] = 0;
bytes = 5;
}
/* enqueue mouse data in multibyte internal mouse buffer */
for (int i = 0; i < bytes; i++) {
tail = (BX_SER_THIS mouse_internal_buffer.head + BX_SER_THIS mouse_internal_buffer.num_elements) %
BX_MOUSE_BUFF_SIZE;
BX_SER_THIS mouse_internal_buffer.buffer[tail] = mouse_data[i];
BX_SER_THIS mouse_internal_buffer.num_elements++;
}
}
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