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authorStu Grossman <grossman@cygnus>1996-07-04 00:51:22 +0000
committerStu Grossman <grossman@cygnus>1996-07-04 00:51:22 +0000
commitb7b31114717d7737edab9a45419135eff2382488 (patch)
tree79723bc8f730511928831abb3a73bbca5adaac88
parenteb2c851803c88186b475d1a2416655f5edfa9b5a (diff)
downloadgdb-b7b31114717d7737edab9a45419135eff2382488.zip
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* erc32.c (mec_reset mec_read mec_write memory_read memory_write),
sis.h: Get rid of all uses of long long's. * (close_port read_uart write_uart uarta_tx): Don't seg fault when can't open pty's. * exec.c: Add two new instructions: smul, and divscc. * interf.c (flush_windows): New routine to flush the register windows out to the stack just before returning to GDB. Makes backtraces work much better.
-rw-r--r--sim/erc32/ChangeLog30
-rw-r--r--sim/erc32/erc32.c1495
-rw-r--r--sim/erc32/interf.c56
-rw-r--r--sim/erc32/sis.h145
4 files changed, 1725 insertions, 1 deletions
diff --git a/sim/erc32/ChangeLog b/sim/erc32/ChangeLog
index 6112350..27e8d8b 100644
--- a/sim/erc32/ChangeLog
+++ b/sim/erc32/ChangeLog
@@ -1,3 +1,33 @@
+Wed Jul 3 16:05:23 1996 Stu Grossman (grossman@critters.cygnus.com)
+
+ * erc32.c (mec_reset mec_read mec_write memory_read memory_write),
+ sis.h: Get rid of all uses of long long's.
+ * (close_port read_uart write_uart uarta_tx): Don't seg fault
+ when can't open pty's.
+ * exec.c: Add two new instructions: smul, and divscc.
+ * interf.c (flush_windows): New routine to flush the register
+ windows out to the stack just before returning to GDB. Makes
+ backtraces work much better.
+
+Wed Jun 26 12:19:11 1996 Jason Molenda (crash@godzilla.cygnus.co.jp)
+
+ * Makefile.in (bindir, libdir, datadir, mandir, infodir, includedir,
+ INSTALL_PROGRAM, INSTALL_DATA): Use autoconf-set values.
+ (docdir, oldincludedir): Removed.
+ * configure.in (AC_PREREQ): autoconf 2.5 or higher.
+ (AC_PROG_INSTALL): Added.
+ * configure: Rebuilt.
+
+Mon Jun 24 14:19:07 1996 Ian Lance Taylor <ian@cygnus.com>
+
+ * configure.in: Call AC_PROG_CC before running configure.host.
+ * configure: Rebuild with autoconf 2.10.
+
+Tue Jun 4 10:37:12 1996 Tom Tromey <tromey@csk3.cygnus.com>
+
+ * Makefile.in (install): Don't check to see if tooldir exists.
+ Make $(tooldir) and $(tooldir)/bin.
+
Mon Jun 3 12:33:38 1996 Ian Lance Taylor <ian@cygnus.com>
* Makefile.in (end.h): Use explicit ./ when running end.
diff --git a/sim/erc32/erc32.c b/sim/erc32/erc32.c
new file mode 100644
index 0000000..2b0b370
--- /dev/null
+++ b/sim/erc32/erc32.c
@@ -0,0 +1,1495 @@
+/*
+ * This file is part of SIS.
+ *
+ * SIS, SPARC instruction simulator V1.8 Copyright (C) 1995 Jiri Gaisler,
+ * European Space Agency
+ *
+ * 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., 675
+ * Mass Ave, Cambridge, MA 02139, USA.
+ *
+ */
+
+/* The control space devices */
+
+#include <sys/types.h>
+#include <stdio.h>
+#include <sys/ioctl.h>
+#include <sys/fcntl.h>
+#include <sys/file.h>
+#include "sis.h"
+#include "end.h"
+
+extern int32 sis_verbose;
+extern int mecrev0;
+extern char uart_dev1[], uart_dev2[];
+
+#define MEC_WS 0 /* Waitstates per MEC access (0 ws) */
+#define MOK 0
+
+/* MEC register addresses */
+
+#define MEC_UARTA 0x0E0
+#define MEC_UARTB 0x0E4
+#define MEC_UART_CTRL 0x0E8
+#define MEC_TIMER_CTRL 0x098
+#define MEC_RTC_COUNTER 0x080
+#define MEC_RTC_RELOAD 0x080
+#define MEC_RTC_SCALER 0x084
+#define MEC_GPT_COUNTER 0x088
+#define MEC_GPT_RELOAD 0x088
+#define MEC_GPT_SCALER 0x08C
+#define MEC_DBG 0x0C0
+#define MEC_BRK 0x0C4
+#define MEC_WPR 0x0C8
+#define MEC_SFSR 0x0A0
+#define MEC_FFAR 0x0A4
+#define MEC_IPR 0x048
+#define MEC_IMR 0x04C
+#define MEC_ICR 0x050
+#define MEC_IFR 0x054
+#define MEC_MCR 0x000
+#define MEC_MEMCFG 0x010
+#define MEC_WCR 0x018
+#define MEC_MAR0 0x020
+#define MEC_MAR1 0x024
+#define MEC_SFR 0x004
+#define MEC_WDOG 0x060
+#define MEC_TRAPD 0x064
+#define MEC_PWDR 0x008
+#define SIM_LOAD 0x0F0
+
+/* Memory exception causes */
+#define PROT_EXC 0x3
+#define UIMP_ACC 0x4
+#define MEC_ACC 0x6
+#define WATCH_EXC 0xa
+#define BREAK_EXC 0xb
+
+/* Size of UART buffers (bytes) */
+#define UARTBUF 1024
+
+/* Number of simulator ticks between flushing the UARTS. */
+/* For good performance, keep above 1000 */
+#define UART_FLUSH_TIME 3000
+
+/* MEC timer control register bits */
+#define TCR_GACR 1
+#define TCR_GACL 2
+#define TCR_GASE 4
+#define TCR_GASL 8
+#define TCR_TCRCR 0x100
+#define TCR_TCRCL 0x200
+#define TCR_TCRSE 0x400
+#define TCR_TCRSL 0x800
+
+/* New uart defines */
+#define UART_TX_TIME 1000
+#define UART_RX_TIME 1000
+#define UARTA_DR 0x1
+#define UARTA_SRE 0x2
+#define UARTA_HRE 0x4
+#define UARTA_OR 0x40
+#define UARTA_CLR 0x80
+#define UARTB_DR 0x10000
+#define UARTB_SRE 0x20000
+#define UARTB_HRE 0x40000
+#define UARTB_OR 0x400000
+#define UARTB_CLR 0x800000
+
+#define UART_DR 0x100
+#define UART_TSE 0x200
+#define UART_THE 0x400
+
+/* MEC registers */
+
+static char fname[256];
+static uint32 find = 0;
+static char simfn[] = "simload";
+static uint32 brk_point = 0;
+static uint32 watch_point = 0;
+static uint32 mec_dbg = 0;
+static uint32 mec_sfsr = 0x078;
+static uint32 mec_ffar = 0;
+static uint32 mec_ipr = 0;
+static uint32 mec_imr = 0x3fff;
+static uint32 mec_icr = 0;
+static uint32 mec_ifr = 0;
+static uint32 mec_mcr; /* MEC control register */
+static uint32 mec_memcfg; /* Memory control register */
+static uint32 mec_wcr; /* MEC waitstate register */
+static uint32 mec_mar0; /* MEC access registers (2) */
+static uint32 mec_mar1; /* MEC access registers (2) */
+static uint32 mec_regs[64];
+static uint32 posted_irq;
+static uint32 mec_ersr = 0; /* MEC error and status register */
+static uint32 mec_emr = 0x60; /* MEC error mask register */
+static uint32 mec_tcr = 0; /* MEC test comtrol register */
+
+static uint32 rtc_counter = 0xffffffff;
+static uint32 rtc_reload = 0xffffffff;
+static uint32 rtc_scaler = 0xff;
+static uint32 rtc_enabled = 0;
+static uint32 rtc_cr = 0;
+static uint32 rtc_se = 0;
+static uint32 rtc_cont = 0;
+
+static uint32 gpt_counter = 0xffffffff;
+static uint32 gpt_reload = 0xffffffff;
+static uint32 gpt_scaler = 0xffff;
+static uint32 gpt_enabled = 0;
+static uint32 gpt_cr = 0;
+static uint32 gpt_se = 0;
+static uint32 gpt_cont = 0;
+
+static uint32 wdog_scaler;
+static uint32 wdog_counter;
+static uint32 wdog_rst_delay;
+static uint32 wdog_rston;
+
+#ifdef MECREV0
+static uint32 gpt_irqon = 1;
+static uint32 rtc_irqon = 1;
+#endif
+
+enum wdog_type {
+ init, disabled, enabled, stopped
+};
+
+static enum wdog_type wdog_status;
+
+/* Memory support variables */
+
+static uint32 mem_ramr_ws; /* RAM read waitstates */
+static uint32 mem_ramw_ws; /* RAM write waitstates */
+static uint32 mem_romr_ws; /* ROM read waitstates */
+static uint32 mem_romw_ws; /* ROM write waitstates */
+static uint32 mem_ramsz; /* RAM size */
+static uint32 mem_romsz; /* RAM size */
+static uint32 mem_banksz; /* RAM bank size */
+static uint32 mem_accprot; /* RAM write protection enabled */
+
+/* UART support variables */
+
+static unsigned char Adata, Bdata;
+static int32 fd1, fd2; /* file descriptor for input file */
+static int32 Ucontrol; /* UART status register */
+static unsigned char aq[UARTBUF], bq[UARTBUF];
+static int32 res;
+static int32 anum, aind = 0;
+static int32 bnum, bind = 0;
+static char wbufa[UARTBUF], wbufb[UARTBUF];
+static unsigned wnuma;
+static unsigned wnumb;
+static FILE *f1 = NULL, *f2 = NULL;
+
+static char uarta_sreg, uarta_hreg, uartb_sreg, uartb_hreg;
+static uint32 uart_stat_reg;
+static uint32 uarta_data, uartb_data;
+
+void uarta_tx();
+void uartb_tx();
+uint32 read_uart();
+void write_uart();
+uint32 rtc_counter_read();
+void rtc_scaler_set();
+void rtc_reload_set();
+uint32 gpt_counter_read();
+void gpt_scaler_set();
+void gpt_reload_set();
+void timer_ctrl();
+void port_init();
+void uart_irq_start();
+void mec_reset();
+void wdog_start();
+
+
+/* One-time init */
+
+void
+init_sim()
+{
+ port_init();
+}
+
+/* Power-on reset init */
+
+void
+reset()
+{
+ mec_reset();
+ uart_irq_start();
+ wdog_start();
+}
+
+/* IU error mode manager */
+
+int
+error_mode(pc)
+ uint32 pc;
+{
+
+ if ((mec_emr & 0x1) == 0) {
+ if (mec_mcr & 0x20) {
+ sys_reset();
+ mec_ersr = 0x8000;
+ printf("Error manager reset - IU in error mode at 0x%08x\n", pc);
+ }
+ }
+}
+
+/* Check memory settings */
+
+void
+decode_memcfg()
+{
+ mem_ramsz = (256 * 1024) << ((mec_memcfg >> 10) & 7);
+ mem_banksz = ((mec_memcfg >> 10) & 7) + 18 - 6;
+ mem_romsz = (4 * 1024) << ((mec_memcfg >> 18) & 7);
+ if (sis_verbose)
+ printf("RAM size: %d K, ROM size: %d K, protection bank size: %d K\n",
+ mem_ramsz >> 10, mem_romsz >> 10, 1 << mem_banksz);
+}
+
+void
+decode_wcr()
+{
+ mem_ramr_ws = mec_wcr & 3;
+ mem_ramw_ws = (mec_wcr >> 2) & 3;
+ mem_romr_ws = (mec_wcr >> 4) & 0x0f;
+ mem_romw_ws = (mec_wcr >> 8) & 0x0f;
+ if (sis_verbose)
+ printf("Waitstates = RAM read: %d, RAM write: %d, ROM read: %d, ROM write: %d\n",
+ mem_ramr_ws, mem_ramw_ws, mem_romr_ws, mem_romw_ws);
+}
+
+void
+decode_mcr()
+{
+ mem_accprot = (mec_mcr >> 3) & 1;
+ if (sis_verbose && mem_accprot)
+ printf("Memory access protection enabled\n");
+ if (sis_verbose && (mec_mcr & 2))
+ printf("Software reset enabled\n");
+ if (sis_verbose && (mec_mcr & 1))
+ printf("Power-down mode enabled\n");
+}
+
+/* Flush ports when simulator stops */
+
+void
+sim_stop()
+{
+#ifdef FAST_UART
+ flush_uart();
+#endif
+}
+
+void
+close_port()
+{
+ if (f1)
+ fclose(f1);
+ if (f2)
+ fclose(f2);
+}
+
+void
+exit_sim()
+{
+ close_port();
+}
+
+void
+mec_reset()
+{
+
+ find = 0;
+ brk_point = 0;
+ watch_point = 0;
+ mec_dbg = 0;
+ mec_sfsr = 0x078;
+ mec_ffar = 0;
+ mec_ipr = 0;
+ mec_imr = 0x3fff;
+ mec_icr = 0;
+ mec_ifr = 0;
+ mec_memcfg = 0x10000;
+ mec_mcr = 0x01b50014;
+ mec_wcr = -1;
+ mec_mar0 = -1;
+ mec_mar1 = -1;
+ mec_ersr = 0; /* MEC error and status register */
+ mec_emr = 0x60; /* MEC error mask register */
+ mec_tcr = 0; /* MEC test comtrol register */
+
+ decode_memcfg();
+ decode_wcr();
+ decode_mcr();
+
+ posted_irq = 0;
+ wnuma = wnumb = 0;
+ anum = aind = bnum = bind = 0;
+
+ uart_stat_reg = UARTA_SRE | UARTA_HRE | UARTB_SRE | UARTB_HRE;
+ uarta_data = uartb_data = UART_THE | UART_TSE;
+
+ rtc_counter = 0xffffffff;
+ rtc_reload = 0xffffffff;
+ rtc_scaler = 0xff;
+ rtc_enabled = 0;
+ rtc_cr = 0;
+ rtc_se = 0;
+ rtc_cont = 0;
+
+ gpt_counter = 0xffffffff;
+ gpt_reload = 0xffffffff;
+ gpt_scaler = 0xffff;
+ gpt_enabled = 0;
+ gpt_cr = 0;
+ gpt_se = 0;
+ gpt_cont = 0;
+
+ wdog_scaler = 255;
+ wdog_rst_delay = 255;
+ wdog_counter = 0xffff;
+ wdog_rston = 0;
+ wdog_status = init;
+
+#ifdef MECREV0
+ gpt_irqon = 1;
+ rtc_irqon = 1;
+#endif
+
+}
+
+
+
+int32
+mec_intack(level)
+ int32 level;
+{
+ int irq_test;
+
+ if (sis_verbose)
+ printf("interrupt %d acknowledged\n",level);
+ irq_test = mec_tcr & 0x80000;
+ if ((irq_test) && (mec_ifr & (1 << level)))
+ mec_ifr &= ~(1 << level);
+ else
+ mec_ipr &= ~(1 << level);
+ posted_irq &= ~(1 << level);
+#ifdef MECREV0
+ if (mecrev0) {
+ if (uart_stat_reg & 1)
+ mec_ipr |= (1 << 4);
+ if (uart_stat_reg & 0x100)
+ mec_ipr |= (1 << 5);
+ }
+#endif
+}
+
+int32
+chk_irq()
+{
+ int32 i;
+ uint32 itmp;
+
+ itmp = ((mec_ipr | mec_ifr) & ~mec_imr) & 0x0fffe;
+ if (itmp != 0) {
+ for (i = 15; i > 0; i--) {
+ if (((itmp >> i) & 1) != 0) {
+ if ((posted_irq & (1 << i)) == 0) {
+ if (sis_verbose)
+ printf("interrupt %d generated\n",i);
+ set_int(i, mec_intack, i);
+ posted_irq |= (1 << i);
+ }
+ }
+ }
+ }
+}
+
+void
+mec_irq(level)
+ int32 level;
+{
+ mec_ipr |= (1 << level);
+ chk_irq();
+}
+
+void
+set_sfsr(fault, addr, asi, read)
+ uint32 fault;
+ uint32 addr;
+ uint32 asi;
+ uint32 read;
+{
+ mec_ffar = addr;
+ mec_sfsr = (fault << 3) | (!read << 15);
+ switch (asi) {
+ case 8:
+ mec_sfsr |= 0x2002;
+ break;
+ case 9:
+ mec_sfsr |= 0x3002;
+ break;
+ case 0xa:
+ mec_sfsr |= 0x0004;
+ break;
+ case 0xb:
+ mec_sfsr |= 0x1004;
+ break;
+ }
+}
+
+int32
+chk_brk(addr, asi)
+ uint32 addr;
+{
+ if ((mec_dbg & 0x80000) && (addr == brk_point) &&
+ ((asi == 9) || (asi == 8))) {
+ mec_dbg |= 0x00800000;
+ if (mec_dbg & 0x00200000) {
+ set_sfsr(BREAK_EXC, addr, asi, 1);
+ return (1);
+ }
+ }
+ return (0);
+}
+
+int32
+chk_watch(addr, read, asi)
+ uint32 addr;
+ uint32 read;
+{
+ uint32 hit;
+
+ if ((mec_dbg & 0x40000) && (asi != 9) && (asi != 8) &&
+ (((mec_dbg & 0x10000) && (read == 0)) || ((mec_dbg & 0x20000) && read))) {
+ if (((addr ^ watch_point) &
+ (0xffff0000 | (mec_dbg & 0x0ffff))) == 0) {
+ mec_dbg |= 0x00400000;
+ if (mec_dbg & 0x100000) {
+ set_sfsr(WATCH_EXC, addr, asi, read);
+ return (1);
+ }
+ }
+ }
+ return (0);
+}
+
+int32
+mec_read(addr, asi, data)
+ uint32 addr;
+ uint32 asi;
+ uint32 *data;
+{
+
+ switch (addr & 0x0ff) {
+
+ case MEC_SFR:
+ case MEC_WDOG:
+ return (1);
+ break;
+ case MEC_DBG:
+ *data = mec_dbg;
+ break;
+ case MEC_UARTA:
+ case MEC_UARTB:
+ if (asi != 0xb)
+ return (1);
+ *data = read_uart(addr);
+ break;
+
+ case MEC_UART_CTRL:
+
+ *data = read_uart(addr);
+ break;
+
+ case MEC_RTC_COUNTER:
+ *data = rtc_counter_read();
+ break;
+
+ case MEC_GPT_COUNTER:
+ *data = gpt_counter_read();
+ break;
+
+ case MEC_SFSR:
+ *data = mec_sfsr;
+ break;
+
+ case MEC_FFAR:
+ *data = mec_ffar;
+ break;
+
+ case MEC_IPR:
+ *data = mec_ipr;
+ break;
+
+ case MEC_IMR:
+ *data = mec_imr;
+ break;
+
+ case MEC_IFR:
+ *data = mec_ifr;
+ break;
+
+ case SIM_LOAD:
+ fname[find] = 0;
+ if (find == 0)
+ strcpy(fname, "simload");
+ *data = bfd_load(fname);
+ find = 0;
+ break;
+
+ case MEC_MCR:
+ *data = mec_mcr;
+ break;
+
+ case MEC_MEMCFG:
+ *data = mec_memcfg;
+ break;
+
+ case MEC_WCR:
+ *data = mec_wcr;
+ break;
+
+ case MEC_MAR0:
+ *data = mec_mar0;
+ break;
+
+ case MEC_MAR1:
+ *data = mec_mar1;
+ break;
+
+ case MEC_PWDR:
+ return (1);
+ break;
+
+ default:
+ if (sis_verbose)
+ printf("Warning, read from unimplemented MEC register %x\n\r", addr);
+ *data = mec_regs[((addr & 0x0ff) >> 2)];
+ break;
+ }
+ return (MOK);
+}
+
+int
+mec_write(addr, data)
+ uint32 addr;
+ uint32 data;
+{
+
+ switch (addr & 0x0ff) {
+
+ case MEC_SFR:
+ if (mec_mcr & 0x2) {
+ sys_reset();
+ mec_ersr = 0x4000;
+ printf(" Software reset issued\n");
+ }
+ break;
+
+ case MEC_BRK:
+ brk_point = data;
+ break;
+
+ case MEC_DBG:
+ mec_dbg = data;
+ break;
+
+ case MEC_WPR:
+ watch_point = data;
+ break;
+
+ case MEC_UARTA:
+ case MEC_UARTB:
+ case MEC_UART_CTRL:
+ write_uart(addr, data);
+ break;
+
+ case MEC_GPT_RELOAD:
+ gpt_reload_set(data);
+ break;
+
+ case MEC_GPT_SCALER:
+ gpt_scaler_set(data);
+ break;
+
+ case MEC_TIMER_CTRL:
+ timer_ctrl(data);
+ break;
+
+ case MEC_RTC_RELOAD:
+ rtc_reload_set(data);
+ break;
+
+ case MEC_RTC_SCALER:
+ rtc_scaler_set(data);
+ break;
+
+ case MEC_SFSR:
+ mec_sfsr = 0;
+ break;
+
+ case MEC_IMR:
+ mec_imr = data & 0x7ffe;
+ chk_irq();
+ break;
+
+ case MEC_ICR:
+ mec_icr &= ~data & 0x0fffe;
+ break;
+
+ case MEC_IFR:
+ mec_ifr = data & 0xfffe;
+ chk_irq();
+ break;
+ case SIM_LOAD:
+ fname[find++] = (char) data;
+ break;
+
+ case MEC_MCR:
+ mec_mcr = data;
+ decode_mcr();
+ break;
+
+ case MEC_MEMCFG:
+ mec_memcfg = data & ~0xC0e08000;
+ decode_memcfg();
+ break;
+
+ case MEC_WCR:
+ mec_wcr = data;
+ decode_wcr();
+ break;
+
+ case MEC_MAR0:
+ mec_mar0 = data;
+ break;
+
+ case MEC_MAR1:
+ mec_mar1 = data;
+ break;
+
+ case MEC_WDOG:
+ wdog_scaler = (data >> 16) & 0x0ff;
+ wdog_counter = data & 0x0ffff;
+ wdog_rst_delay = data >> 24;
+ wdog_rston = 0;
+ if (wdog_status == stopped)
+ wdog_start();
+ wdog_status = enabled;
+ break;
+
+ case MEC_TRAPD:
+ if (wdog_status == init) {
+ wdog_status = disabled;
+ if (sis_verbose)
+ printf("Watchdog disabled\n");
+ }
+ break;
+
+ case MEC_PWDR:
+ if (mec_mcr & 1)
+ wait_for_irq();
+ break;
+
+ default:
+ if (sis_verbose)
+ printf("Warning, write to unimplemented MEC register %x\n\r",
+ addr);
+ mec_regs[((addr & 0x0ffc) >> 2)] = data;
+ break;
+ }
+ return (MOK);
+}
+
+
+/* MEC UARTS */
+
+
+void
+port_init()
+{
+
+ int32 pty_remote = 1;
+
+
+
+ if ((fd1 = open(uart_dev1, O_RDWR | O_NDELAY | O_NONBLOCK)) < 0) {
+ printf("Warning, couldn't open output device %s\n", uart_dev1);
+ } else {
+ printf("serial port A on %s\n", uart_dev1);
+ f1 = fdopen(fd1, "r+");
+ setbuf(f1, NULL);
+ }
+ if ((fd2 = open(uart_dev2, O_RDWR | O_NDELAY | O_NONBLOCK)) < 0) {
+ printf("Warning, couldn't open output device %s\n", uart_dev2);
+ } else {
+ printf("serial port B on %s\n", uart_dev2);
+ f2 = fdopen(fd2, "r+");
+ setbuf(f2, NULL);
+ }
+
+ wnuma = wnumb = 0;
+}
+
+uint32
+read_uart(addr)
+ uint32 addr;
+{
+
+ unsigned tmp;
+
+ switch (addr & 0xff) {
+
+ case 0xE0: /* UART 1 */
+#ifdef FAST_UART
+ if (aind < anum) {
+ if ((aind + 1) < anum)
+ mec_irq(4);
+ return (0x700 | (uint32) aq[aind++]);
+ } else {
+ if (f1)
+ anum = fread(aq, 1, UARTBUF, f1);
+ else
+ anum = 0;
+ if (anum > 0) {
+ aind = 0;
+ if ((aind + 1) < anum)
+ mec_irq(4);
+ return (0x700 | (uint32) aq[aind++]);
+ } else {
+ return (0x600 | (uint32) aq[aind]);
+ }
+
+ }
+#else
+ tmp = uarta_data;
+ uarta_data &= ~UART_DR;
+ uart_stat_reg &= ~UARTA_DR;
+ return tmp;
+#endif
+ break;
+
+ case 0xE4: /* UART 2 */
+#ifdef FAST_UART
+ if (bind < bnum) {
+ if ((bind + 1) < bnum)
+ mec_irq(5);
+ return (0x700 | (uint32) bq[bind++]);
+ } else {
+ if (f2)
+ bnum = fread(bq, 1, UARTBUF, f2);
+ else
+ bnum = 0;
+ if (bnum > 0) {
+ bind = 0;
+ if ((bind + 1) < bnum)
+ mec_irq(5);
+ return (0x700 | (uint32) bq[bind++]);
+ } else {
+ return (0x600 | (uint32) bq[bind]);
+ }
+
+ }
+#else
+ tmp = uartb_data;
+ uartb_data &= ~UART_DR;
+ uart_stat_reg &= ~UARTB_DR;
+ return tmp;
+#endif
+ break;
+
+ case 0xE8: /* UART status register */
+#ifdef FAST_UART
+ Ucontrol = 0;
+ if (aind < anum) {
+ Ucontrol |= 0x00000001;
+ } else {
+ if (f1)
+ anum = fread(aq, 1, UARTBUF, f1);
+ else
+ anum = 0;
+ if (anum > 0) {
+ Ucontrol |= 0x00000001;
+ aind = 0;
+ mec_irq(4);
+ }
+ }
+ if (bind < bnum) {
+ Ucontrol |= 0x00010000;
+ } else {
+ if (f2)
+ bnum = fread(bq, 1, UARTBUF, f2);
+ else
+ bnum = 0;
+ if (bnum > 0) {
+ Ucontrol |= 0x00010000;
+ bind = 0;
+ mec_irq(5);
+ }
+ }
+
+ Ucontrol |= 0x00060006;
+ return (Ucontrol);
+#else
+ return (uart_stat_reg);
+#endif
+ break;
+ default:
+ if (sis_verbose)
+ printf("Read from unimplemented MEC register (%x)\n", addr);
+
+ }
+ return (0);
+}
+
+void
+write_uart(addr, data)
+ uint32 addr;
+ uint32 data;
+{
+
+ int32 wnum = 0;
+ unsigned char c;
+
+ c = (unsigned char) data;
+ switch (addr & 0xff) {
+
+ case 0xE0: /* UART A */
+#ifdef FAST_UART
+ if (wnuma < UARTBUF)
+ wbufa[wnuma++] = c;
+ else {
+ while (wnuma)
+ if (f1)
+ wnuma -= fwrite(wbufa, 1, wnuma, f1);
+ else
+ wnuma--;
+ wbufa[wnuma++] = c;
+ }
+ mec_irq(4);
+#else
+ if (uart_stat_reg & UARTA_SRE) {
+ uarta_sreg = c;
+ uart_stat_reg &= ~UARTA_SRE;
+ event(uarta_tx, 0, UART_TX_TIME);
+ } else {
+ uarta_hreg = c;
+ uart_stat_reg &= ~UARTA_HRE;
+ }
+#endif
+ break;
+
+ case 0xE4: /* UART B */
+#ifdef FAST_UART
+ if (wnumb < UARTBUF)
+ wbufb[wnumb++] = c;
+ else {
+ while (wnumb)
+ if (f2)
+ wnumb -= fwrite(wbufb, 1, wnumb, f2);
+ else
+ wnumb--;
+ wbufb[wnumb++] = c;
+ }
+ mec_irq(5);
+#else
+ if (uart_stat_reg & UARTB_SRE) {
+ uartb_sreg = c;
+ uart_stat_reg &= ~UARTB_SRE;
+ event(uartb_tx, 0, UART_TX_TIME);
+ } else {
+ uartb_hreg = c;
+ uart_stat_reg &= ~UARTB_HRE;
+ }
+#endif
+ break;
+ case 0xE8: /* UART status register */
+#ifndef FAST_UART
+ if (data & UARTA_CLR) {
+ uart_stat_reg &= 0xFFFF0000;
+ uart_stat_reg |= UARTA_SRE | UARTA_HRE;
+ }
+ if (data & UARTB_CLR) {
+ uart_stat_reg &= 0x0000FFFF;
+ uart_stat_reg |= UARTB_SRE | UARTB_HRE;
+ }
+#endif
+ break;
+ default:
+ if (sis_verbose)
+ printf("Write to unimplemented MEC register (%x)\n", addr);
+
+ }
+}
+
+flush_uart()
+{
+ while (wnuma)
+ if (f1)
+ wnuma -= fwrite(wbufa, 1, wnuma, f1);
+ else
+ wnuma = 0;
+ while (wnumb)
+ if (f2)
+ wnumb -= fwrite(wbufb, 1, wnumb, f2);
+ else
+ wnumb = 0;
+}
+
+
+
+void
+uarta_tx()
+{
+
+ while ((f1 ? fwrite(&uarta_sreg, 1, 1, f1) : 1) != 1);
+ if (uart_stat_reg & UARTA_HRE) {
+ uart_stat_reg |= UARTA_SRE;
+ } else {
+ uarta_sreg = uarta_hreg;
+ uart_stat_reg |= UARTA_HRE;
+ event(uarta_tx, 0, UART_TX_TIME);
+ }
+ mec_irq(4);
+}
+
+void
+uartb_tx()
+{
+ while (fwrite(&uartb_sreg, 1, 1, f2) != 1);
+ if (uart_stat_reg & UARTB_HRE) {
+ uart_stat_reg |= UARTB_SRE;
+ } else {
+ uartb_sreg = uartb_hreg;
+ uart_stat_reg |= UARTB_HRE;
+ event(uartb_tx, 0, UART_TX_TIME);
+ }
+ mec_irq(5);
+}
+
+void
+uart_rx(arg)
+ caddr_t arg;
+{
+ int32 rsize;
+ char rxd;
+
+ rsize = fread(&rxd, 1, 1, f1);
+ if (rsize) {
+ uarta_data = UART_DR | rxd;
+ if (uart_stat_reg & UARTA_HRE)
+ uarta_data |= UART_THE;
+ if (uart_stat_reg & UARTA_SRE)
+ uarta_data |= UART_TSE;
+ if (uart_stat_reg & UARTA_DR) {
+ uart_stat_reg |= UARTA_OR;
+ mec_irq(7); /* UART error interrupt */
+ }
+ uart_stat_reg |= UARTA_DR;
+ mec_irq(4);
+ }
+ rsize = fread(&rxd, 1, 1, f2);
+ if (rsize) {
+ uartb_data = UART_DR | rxd;
+ if (uart_stat_reg & UARTB_HRE)
+ uartb_data |= UART_THE;
+ if (uart_stat_reg & UARTB_SRE)
+ uartb_data |= UART_TSE;
+ if (uart_stat_reg & UARTB_DR) {
+ uart_stat_reg |= UARTB_OR;
+ mec_irq(7); /* UART error interrupt */
+ }
+ uart_stat_reg |= UARTB_DR;
+ mec_irq(5);
+ }
+ event(uart_rx, 0, UART_RX_TIME);
+}
+
+void
+uart_intr(arg)
+ caddr_t arg;
+{
+ read_uart(0xE8); /* Check for UART interrupts every 1000 clk */
+ flush_uart(); /* Flush UART ports */
+ event(uart_intr, 0, UART_FLUSH_TIME);
+}
+
+
+void
+uart_irq_start()
+{
+#ifdef FAST_UART
+ event(uart_intr, 0, UART_FLUSH_TIME);
+#else
+ event(uart_rx, 0, UART_RX_TIME);
+#endif
+}
+
+/* Watch-dog */
+
+void
+wdog_intr(arg)
+ caddr_t arg;
+{
+ if (wdog_status == disabled) {
+ wdog_status = stopped;
+ } else {
+
+ if (wdog_counter) {
+ wdog_counter--;
+ event(wdog_intr, 0, wdog_scaler + 1);
+ } else {
+ if (wdog_rston) {
+ printf("Watchdog reset!\n");
+ sys_reset();
+ mec_ersr = 0xC000;
+ } else {
+ mec_irq(15);
+ wdog_rston = 1;
+ wdog_counter = wdog_rst_delay;
+ event(wdog_intr, 0, wdog_scaler + 1);
+ }
+ }
+ }
+}
+
+void
+wdog_start()
+{
+ event(wdog_intr, 0, wdog_scaler + 1);
+ if (sis_verbose)
+ printf("Watchdog started, scaler = %d, counter = %d\n",
+ wdog_scaler, wdog_counter);
+}
+
+
+/* MEC timers */
+
+
+void
+rtc_intr(arg)
+ caddr_t arg;
+{
+ if (rtc_counter == 0) {
+#ifdef MECREV0
+ if (mecrev0) {
+ if (rtc_cr) {
+ rtc_counter = rtc_reload;
+ mec_irq(13);
+ } else {
+ rtc_cont = 0;
+ if (rtc_irqon) {
+ mec_irq(13);
+ rtc_irqon = 0;
+ } else {
+ if (sis_verbose)
+ printf("RTC interrupt lost (MEC rev.0)\n");
+ }
+ }
+ } else {
+ mec_irq(13);
+ if (rtc_cr)
+ rtc_counter = rtc_reload;
+ else
+ rtc_cont = 0;
+ }
+
+#else
+
+ mec_irq(13);
+ if (rtc_cr)
+ rtc_counter = rtc_reload;
+ else
+ rtc_cont = 0;
+#endif
+
+ } else
+ rtc_counter -= 1;
+ if (rtc_se && rtc_cont) {
+ event(rtc_intr, 0, rtc_scaler + 1);
+ rtc_enabled = 1;
+ } else {
+ if (sis_verbose)
+ printf("RTC stopped\n\r");
+ rtc_enabled = 0;
+ }
+}
+
+void
+rtc_start()
+{
+ if (sis_verbose)
+ printf("RTC started (period %d)\n\r", rtc_scaler + 1);
+ event(rtc_intr, 0, rtc_scaler + 1);
+ rtc_enabled = 1;
+}
+
+uint32
+rtc_counter_read()
+{
+ return (rtc_counter);
+}
+
+void
+rtc_scaler_set(val)
+ uint32 val;
+{
+ rtc_scaler = val & 0x0ff; /* eight-bit scaler only */
+}
+
+void
+rtc_reload_set(val)
+ uint32 val;
+{
+ rtc_reload = val;
+}
+
+void
+gpt_intr(arg)
+ caddr_t arg;
+{
+ if (gpt_counter == 0) {
+#ifdef MECREV0
+ if (mecrev0) {
+ if (gpt_cr) {
+ gpt_counter = gpt_reload;
+ mec_irq(12);
+ } else {
+ gpt_cont = 0;
+ if (gpt_irqon) {
+ mec_irq(12);
+ gpt_irqon = 0;
+ } else {
+ if (sis_verbose)
+ printf("GPT interrupt lost (MEC rev.0)\n");
+ }
+ }
+ } else {
+ mec_irq(12);
+ if (gpt_cr)
+ gpt_counter = gpt_reload;
+ else
+ gpt_cont = 0;
+ }
+
+#else
+ mec_irq(12);
+ if (gpt_cr)
+ gpt_counter = gpt_reload;
+ else
+ gpt_cont = 0;
+#endif
+ } else
+ gpt_counter -= 1;
+ if (gpt_se && gpt_cont) {
+ event(gpt_intr, 0, gpt_scaler + 1);
+ gpt_enabled = 1;
+ } else {
+ if (sis_verbose)
+ printf("GPT stopped\n\r");
+ gpt_enabled = 0;
+ }
+}
+
+void
+gpt_start()
+{
+ if (sis_verbose)
+ printf("GPT started (period %d)\n\r", gpt_scaler + 1);
+ event(gpt_intr, 0, gpt_scaler + 1);
+ gpt_enabled = 1;
+}
+
+uint32
+gpt_counter_read()
+{
+ return (gpt_counter);
+}
+
+void
+gpt_scaler_set(val)
+ uint32 val;
+{
+ gpt_scaler = val & 0x0ffff; /* 16-bit scaler */
+}
+
+void
+gpt_reload_set(val)
+ uint32 val;
+{
+ gpt_reload = val;
+}
+
+void
+timer_ctrl(val)
+ uint32 val;
+{
+
+#ifdef MECREV0
+ if ((mecrev0) && (val & 0x500))
+ rtc_irqon = 1;
+#endif
+
+ rtc_cr = ((val & TCR_TCRCR) != 0);
+ if (val & TCR_TCRCL) {
+ rtc_counter = rtc_reload;
+ rtc_cont = 1;
+ }
+ if (val & TCR_TCRSL) {
+ rtc_cont = 1;
+ }
+ rtc_se = ((val & TCR_TCRSE) != 0);
+ if (rtc_cont && rtc_se && (rtc_enabled == 0))
+ rtc_start();
+
+#ifdef MECREV0
+ if ((mecrev0) && (val & 0x5))
+ gpt_irqon = 1;
+#endif
+
+ gpt_cr = (val & TCR_GACR);
+ if (val & TCR_GACL) {
+ gpt_counter = gpt_reload;
+ gpt_cont = 1;
+ }
+ if (val & TCR_GACL) {
+ gpt_cont = 1;
+ }
+ gpt_se = (val & TCR_GASE) >> 2;
+ if (gpt_cont && gpt_se && (gpt_enabled == 0))
+ gpt_start();
+}
+
+
+/* Memory emulation */
+
+/* ROM size 512 Kbyte */
+#define ROM_SZ 0x080000
+
+/* RAM size 4 Mbyte */
+#define RAM_START 0x02000000
+#define RAM_END 0x02400000
+#define RAM_MASK 0x003fffff
+
+/* MEC registers */
+#define MEC_START 0x01f80000
+#define MEC_END 0x01f80100
+
+/* Memory exception waitstates */
+#define MEM_EX_WS 1
+
+/* ERC32 always adds one waitstate during ldd/std */
+#define LDD_WS 1
+#define STD_WS 1
+
+extern int32 sis_verbose;
+
+static uint32 romb[ROM_SZ / 4];
+static uint32 ramb[(RAM_END - RAM_START) / 4];
+
+int
+memory_read(asi, addr, data, ws)
+ int32 asi;
+ uint32 addr;
+ uint32 *data;
+ int32 *ws;
+{
+ int32 mexc;
+ uint32 *mem;
+
+#ifdef MECBRK
+
+ if (mec_dbg & 0x80000) {
+ if (chk_brk(addr, asi)) {
+ *ws = MEM_EX_WS;
+ return (1);
+ }
+ }
+ if (mec_dbg & 0x40000) {
+ if (chk_watch(addr, 1, asi)) {
+ *ws = MEM_EX_WS;
+ return (1);
+ }
+ }
+#endif
+
+ if (addr < mem_romsz) {
+ *data = romb[addr >> 2];
+ *ws = mem_romr_ws;
+ return (0);
+ } else if ((addr >= RAM_START) && (addr < (RAM_START + mem_ramsz))) {
+ *data = ramb[(addr & RAM_MASK) >> 2];
+ *ws = mem_ramr_ws;
+ return (0);
+ } else if ((addr >= MEC_START) && (addr < MEC_END)) {
+ mexc = mec_read(addr, asi, data);
+ if (mexc) {
+ set_sfsr(MEC_ACC, addr, asi, 1);
+ *ws = MEM_EX_WS;
+ } else {
+ *ws = 0;
+ }
+ return (mexc);
+ }
+ printf("Memory exception at %x (illegal address)\n", addr);
+ set_sfsr(UIMP_ACC, addr, asi, 1);
+ *ws = MEM_EX_WS;
+ return (1);
+}
+
+int
+memory_write(asi, addr, data, sz, ws)
+ int32 asi;
+ uint32 addr;
+ uint32 *data;
+ int32 sz;
+ int32 *ws;
+{
+ uint32 byte_addr;
+ uint32 byte_mask;
+ uint32 waddr;
+ uint32 bank;
+ int32 mexc;
+
+#ifdef MECBRK
+ if (mec_dbg & 0x40000) {
+ if (chk_watch(addr, 0, asi)) {
+ *ws = MEM_EX_WS;
+ return (1);
+ }
+ }
+#endif
+
+ if ((addr >= RAM_START) && (addr < (RAM_START + mem_ramsz))) {
+ if (mem_accprot) {
+ bank = (addr & RAM_MASK) >> mem_banksz;
+ if (bank < 32
+ ? !((1 << bank) & mec_mar0)
+ : !((1 << (bank - 32) & mec_mar1))) {
+ printf("Memory access protection error at %x\n", addr);
+ set_sfsr(PROT_EXC, addr, asi, 0);
+ *ws = MEM_EX_WS;
+ return (1);
+ }
+ }
+ *ws = mem_ramw_ws;
+ waddr = (addr & RAM_MASK) >> 2;
+ switch (sz) {
+ case 0:
+ byte_addr = addr & 3;
+ byte_mask = 0x0ff << (24 - (8 * byte_addr));
+ ramb[waddr] = (ramb[waddr] & ~byte_mask)
+ | ((*data & 0x0ff) << (24 - (8 * byte_addr)));
+ break;
+ case 1:
+ byte_addr = (addr & 2) >> 1;
+ byte_mask = 0x0ffff << (16 - (16 * byte_addr));
+ ramb[waddr] = (ramb[waddr] & ~byte_mask)
+ | ((*data & 0x0ffff) << (16 - (16 * byte_addr)));
+ break;
+ case 2:
+ ramb[waddr] = *data;
+ break;
+ case 3:
+ ramb[waddr] = data[0];
+ ramb[waddr + 1] = data[1];
+ *ws += mem_ramw_ws + STD_WS;
+ break;
+ }
+ return (0);
+ } else if ((addr >= MEC_START) && (addr < MEC_END)) {
+ if ((sz != 2) || (asi != 0xb)) {
+ set_sfsr(MEC_ACC, addr, asi, 0);
+ *ws = MEM_EX_WS;
+ return (1);
+ }
+ mexc = mec_write(addr, *data);
+ if (mexc) {
+ set_sfsr(MEC_ACC, addr, asi, 0);
+ *ws = MEM_EX_WS;
+ } else {
+ *ws = 0;
+ }
+ return (mexc);
+
+ }
+ *ws = MEM_EX_WS;
+ set_sfsr(UIMP_ACC, addr, asi, 0);
+ return (1);
+}
+
+unsigned char *
+get_mem_ptr(addr, size)
+ uint32 addr;
+ uint32 size;
+{
+ char *bram, *brom;
+
+ brom = (char *) romb;
+ bram = (char *) ramb;
+ if ((addr + size) < ROM_SZ) {
+ return (&brom[addr]);
+ } else if ((addr >= RAM_START) && ((addr + size) < RAM_END)) {
+ return (&bram[(addr & RAM_MASK)]);
+ }
+ return ((char *) -1);
+}
+
+int
+sis_memory_write(addr, data, length)
+ uint32 addr;
+ char *data;
+ uint32 length;
+{
+ char *mem;
+ uint32 i;
+
+ if ((mem = get_mem_ptr(addr, length)) == ((char *) -1))
+ return (0);
+#ifdef HOST_LITTLE_ENDIAN
+ for (i = 0; i < length; i++) {
+ mem[i ^ 0x3] = data[i];
+ }
+#else
+ memcpy(mem, data, length);
+#endif
+ return (length);
+}
+
+int
+sis_memory_read(addr, data, length)
+ uint32 addr;
+ char *data;
+ uint32 length;
+{
+ char *mem;
+ int i;
+
+ if ((mem = get_mem_ptr(addr, length)) == ((char *) -1))
+ return (0);
+
+#ifdef HOST_LITTLE_ENDIAN
+ for (i = 0; i < length; i++) {
+ data[i] = mem[i ^ 0x3];
+ }
+#else
+ memcpy(data, mem, length);
+#endif
+ return (length);
+}
diff --git a/sim/erc32/interf.c b/sim/erc32/interf.c
index e81fbf3..2cc3a00 100644
--- a/sim/erc32/interf.c
+++ b/sim/erc32/interf.c
@@ -228,10 +228,12 @@ sim_close(int quitting)
};
+/* Return non-zero if the caller should handle the load. Zero if
+ we have loaded the image. */
int
sim_load(char *prog, int from_tty)
{
- bfd_load(*prog);
+ bfd_load(prog);
return (0);
}
@@ -317,11 +319,63 @@ sim_stop_reason(enum sim_stop * reason, int *sigrc)
simstat = OK;
}
+/* Flush all register windows out to the stack. Starting after the invalid
+ window, flush all windows up to, and including the current window. This
+ allows GDB to do backtraces and look at local variables for frames that
+ are still in the register windows. Note that strictly speaking, this
+ behavior is *wrong* for several reasons. First, it doesn't use the window
+ overflow handlers. It therefore assumes standard frame layouts and window
+ handling policies. Second, it changes system state behind the back of the
+ target program. I expect this to mainly pose problems when debugging trap
+ handlers.
+*/
+
+#define PSR_CWP 0x7
+
+static void
+flush_windows ()
+{
+ int invwin;
+ int cwp;
+ int win;
+ int ws;
+
+ /* Keep current window handy */
+
+ cwp = sregs.psr & PSR_CWP;
+
+ /* Calculate the invalid window from the wim. */
+
+ for (invwin = 0; invwin <= PSR_CWP; invwin++)
+ if ((sregs.wim >> invwin) & 1)
+ break;
+
+ /* Start saving with the window after the invalid window. */
+
+ invwin = (invwin - 1) & PSR_CWP;
+
+ for (win = invwin; ; win = (win - 1) & PSR_CWP)
+ {
+ uint32 sp;
+ int i;
+
+ sp = sregs.r[(win * 16 + 14) & 0x7f];
+
+ for (i = 0; i < 16; i++)
+ memory_write (11, sp + 4 * i, &sregs.r[(win * 16 + 16 + i) & 0x7f], 2,
+ &ws);
+
+ if (win == cwp)
+ break;
+ }
+}
void
sim_resume(int step, int siggnal)
{
simstat = run_sim(&sregs, 1, 0, 0);
+
+ flush_windows ();
}
void
diff --git a/sim/erc32/sis.h b/sim/erc32/sis.h
new file mode 100644
index 0000000..144ae5d
--- /dev/null
+++ b/sim/erc32/sis.h
@@ -0,0 +1,145 @@
+/*
+ * This file is part of SIS.
+ *
+ * ERC32SIM, SPARC instruction simulator. Copyright (C) 1995 Jiri Gaisler,
+ * European Space Agency
+ *
+ * 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., 675
+ * Mass Ave, Cambridge, MA 02139, USA.
+ *
+ */
+
+#include "end.h"
+
+#define I_ACC_EXC 1
+
+/* Maximum events in event queue */
+#define EVENT_MAX 256
+
+/* Maximum # of floating point queue */
+#define FPUQN 1
+
+/* Maximum # of breakpoints */
+#define BPT_MAX 256
+
+struct histype {
+ unsigned addr;
+ unsigned time;
+};
+
+/* type definitions */
+
+typedef short int int16; /* 16-bit signed int */
+typedef unsigned short int uint16; /* 16-bit unsigned int */
+typedef int int32; /* 32-bit signed int */
+typedef unsigned int uint32; /* 32-bit unsigned int */
+typedef float float32; /* 32-bit float */
+typedef double float64; /* 64-bit float */
+
+struct pstate {
+
+ float64 fd[16]; /* FPU registers */
+#ifdef HOST_LITTLE_ENDIAN_FLOAT
+ float32 fs[32];
+ float32 *fdp;
+#else
+ float32 *fs;
+#endif
+ int32 *fsi;
+ uint32 fsr;
+ int32 fpstate;
+ uint32 fpq[FPUQN * 2];
+ uint32 fpqn;
+ uint32 ftime;
+ uint32 flrd;
+ uint32 frd;
+ uint32 frs1;
+ uint32 frs2;
+ uint32 fpu_pres; /* FPU present (0 = No, 1 = Yes) */
+
+ uint32 psr; /* IU registers */
+ uint32 tbr;
+ uint32 wim;
+ uint32 g[8];
+ uint32 r[128];
+ uint32 y;
+ uint32 pc, npc;
+
+
+ uint32 trap; /* Current trap type */
+ uint32 annul; /* Instruction annul */
+ uint32 data; /* Loaded data */
+ uint32 inst; /* Current instruction */
+ uint32 asi; /* Current ASI */
+ uint32 err_mode; /* IU error mode */
+ uint32 breakpoint;
+ uint32 bptnum;
+ uint32 bphit;
+ uint32 bpts[BPT_MAX]; /* Breakpoints */
+
+ uint32 ltime; /* Load interlock time */
+ uint32 hold; /* IU hold cycles in current inst */
+ uint32 fhold; /* FPU hold cycles in current inst */
+ uint32 icnt; /* Instruction cycles in curr inst */
+
+ uint32 histlen; /* Trace history management */
+ uint32 histind;
+ struct histype *histbuf;
+ float32 freq; /* Simulated processor frequency */
+
+
+ uint32 tottime;
+ uint32 ninst;
+ uint32 fholdt;
+ uint32 holdt;
+ uint32 icntt;
+ uint32 finst;
+ uint32 simstart;
+ uint32 starttime;
+ uint32 pwdtime; /* Cycles in power-down mode */
+ uint32 nstore; /* Number of load instructions */
+ uint32 nload; /* Number of store instructions */
+ uint32 nannul; /* Number of annuled instructions */
+ uint32 nbranch; /* Number of branch instructions */
+ uint32 ildreg; /* Destination of last load instruction */
+ uint32 ildtime; /* Last time point for load dependency */
+
+ int rett_err; /* IU in jmpl/restore error state (Rev.0) */
+ int jmpltime;
+};
+
+struct evcell {
+ void (*cfunc) ();
+ int32 arg;
+ uint32 time;
+ struct evcell *nxt;
+};
+
+struct estate {
+ struct evcell eq;
+ struct evcell *freeq;
+ uint32 simtime;
+};
+
+struct irqcell {
+ void (*callback) ();
+ int32 arg;
+};
+
+
+#define OK 0
+#define TIME_OUT 1
+#define BPT_HIT 2
+#define ERROR 3
+#define CTRL_C 4