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Diffstat (limited to 'roms/SLOF/clients/net-snk/app/biosemu/io.c')
-rw-r--r--roms/SLOF/clients/net-snk/app/biosemu/io.c382
1 files changed, 382 insertions, 0 deletions
diff --git a/roms/SLOF/clients/net-snk/app/biosemu/io.c b/roms/SLOF/clients/net-snk/app/biosemu/io.c
new file mode 100644
index 000000000..e9c08932a
--- /dev/null
+++ b/roms/SLOF/clients/net-snk/app/biosemu/io.c
@@ -0,0 +1,382 @@
+/******************************************************************************
+ * Copyright (c) 2004, 2008 IBM Corporation
+ * All rights reserved.
+ * This program and the accompanying materials
+ * are made available under the terms of the BSD License
+ * which accompanies this distribution, and is available at
+ * http://www.opensource.org/licenses/bsd-license.php
+ *
+ * Contributors:
+ * IBM Corporation - initial implementation
+ *****************************************************************************/
+
+#include <stdio.h>
+#include <cpu.h>
+#include <pci.h>
+#include "device.h"
+#include "rtas.h"
+#include "debug.h"
+#include "device.h"
+#include <stdint.h>
+#include <x86emu/x86emu.h>
+#include <time.h>
+#include "io.h"
+
+//defined in net-snk/kernel/timer.c
+extern uint64_t get_time(void);
+
+uint32_t pci_cfg_read(X86EMU_pioAddr addr, uint8_t size);
+void pci_cfg_write(X86EMU_pioAddr addr, uint32_t val, uint8_t size);
+uint8_t handle_port_61h(void);
+
+uint8_t
+my_inb(X86EMU_pioAddr addr)
+{
+ uint8_t rval = 0xFF;
+ uint64_t translated_addr = addr;
+ uint8_t translated = dev_translate_address(&translated_addr);
+ if (translated != 0) {
+ //translation successful, access Device I/O (BAR or Legacy...)
+ DEBUG_PRINTF_IO("%s(%x): access to Device I/O\n", __FUNCTION__,
+ addr);
+ //DEBUG_PRINTF_IO("%s(%04x): translated_addr: %llx\n", __FUNCTION__, addr, translated_addr);
+ rval = read_io((void *)translated_addr, 1);
+ DEBUG_PRINTF_IO("%s(%04x) Device I/O --> %02x\n", __FUNCTION__,
+ addr, rval);
+ return rval;
+ } else {
+ switch (addr) {
+ case 0x61:
+ //8254 KB Controller / Timer Port
+ rval = handle_port_61h();
+ //DEBUG_PRINTF_IO("%s(%04x) KB / Timer Port B --> %02x\n", __FUNCTION__, addr, rval);
+ return rval;
+ break;
+ case 0xCFC:
+ case 0xCFD:
+ case 0xCFE:
+ case 0xCFF:
+ // PCI Config Mechanism 1 Ports
+ return (uint8_t) pci_cfg_read(addr, 1);
+ break;
+ case 0x0a:
+ CHECK_DBG(DEBUG_INTR) {
+ X86EMU_trace_on();
+ }
+ M.x86.debug &= ~DEBUG_DECODE_NOPRINT_F;
+ //HALT_SYS();
+ // no break, intentional fall-through to default!!
+ default:
+ DEBUG_PRINTF_IO
+ ("%s(%04x) reading from bios_device.io_buffer\n",
+ __FUNCTION__, addr);
+ rval = *((uint8_t *) (bios_device.io_buffer + addr));
+ DEBUG_PRINTF_IO("%s(%04x) I/O Buffer --> %02x\n",
+ __FUNCTION__, addr, rval);
+ return rval;
+ break;
+ }
+ }
+}
+
+uint16_t
+my_inw(X86EMU_pioAddr addr)
+{
+ uint64_t translated_addr = addr;
+ uint8_t translated = dev_translate_address(&translated_addr);
+ if (translated != 0) {
+ //translation successful, access Device I/O (BAR or Legacy...)
+ DEBUG_PRINTF_IO("%s(%x): access to Device I/O\n", __FUNCTION__,
+ addr);
+ //DEBUG_PRINTF_IO("%s(%04x): translated_addr: %llx\n", __FUNCTION__, addr, translated_addr);
+ uint16_t rval;
+ if ((translated_addr & (uint64_t) 0x1) == 0) {
+ // 16 bit aligned access...
+ uint16_t tempval = read_io((void *)translated_addr, 2);
+ //little endian conversion
+ rval = in16le((void *) &tempval);
+ } else {
+ // unaligned access, read single bytes, little-endian
+ rval = (read_io((void *)translated_addr, 1) << 8)
+ | (read_io((void *)(translated_addr + 1), 1));
+ }
+ DEBUG_PRINTF_IO("%s(%04x) Device I/O --> %04x\n", __FUNCTION__,
+ addr, rval);
+ return rval;
+ } else {
+ switch (addr) {
+ case 0xCFC:
+ case 0xCFE:
+ //PCI Config Mechanism 1
+ return (uint16_t) pci_cfg_read(addr, 2);
+ break;
+ default:
+ DEBUG_PRINTF_IO
+ ("%s(%04x) reading from bios_device.io_buffer\n",
+ __FUNCTION__, addr);
+ uint16_t rval =
+ in16le((void *) bios_device.io_buffer + addr);
+ DEBUG_PRINTF_IO("%s(%04x) I/O Buffer --> %04x\n",
+ __FUNCTION__, addr, rval);
+ return rval;
+ break;
+ }
+ }
+}
+
+uint32_t
+my_inl(X86EMU_pioAddr addr)
+{
+ uint64_t translated_addr = addr;
+ uint8_t translated = dev_translate_address(&translated_addr);
+ if (translated != 0) {
+ //translation successful, access Device I/O (BAR or Legacy...)
+ DEBUG_PRINTF_IO("%s(%x): access to Device I/O\n", __FUNCTION__,
+ addr);
+ //DEBUG_PRINTF_IO("%s(%04x): translated_addr: %llx\n", __FUNCTION__, addr, translated_addr);
+ uint32_t rval;
+ if ((translated_addr & (uint64_t) 0x3) == 0) {
+ // 32 bit aligned access...
+ uint32_t tempval = read_io((void *) translated_addr, 4);
+ //little endian conversion
+ rval = in32le((void *) &tempval);
+ } else {
+ // unaligned access, read single bytes, little-endian
+ rval = (read_io((void *)(translated_addr), 1) << 24)
+ | (read_io((void *)(translated_addr + 1), 1) << 16)
+ | (read_io((void *)(translated_addr + 2), 1) << 8)
+ | (read_io((void *)(translated_addr + 3), 1));
+ }
+ DEBUG_PRINTF_IO("%s(%04x) Device I/O --> %08x\n", __FUNCTION__,
+ addr, rval);
+ return rval;
+ } else {
+ switch (addr) {
+ case 0xCFC:
+ //PCI Config Mechanism 1
+ return pci_cfg_read(addr, 4);
+ break;
+ default:
+ DEBUG_PRINTF_IO
+ ("%s(%04x) reading from bios_device.io_buffer\n",
+ __FUNCTION__, addr);
+ uint32_t rval =
+ in32le((void *) bios_device.io_buffer + addr);
+ DEBUG_PRINTF_IO("%s(%04x) I/O Buffer --> %08x\n",
+ __FUNCTION__, addr, rval);
+ return rval;
+ break;
+ }
+ }
+}
+
+void
+my_outb(X86EMU_pioAddr addr, uint8_t val)
+{
+ uint64_t translated_addr = addr;
+ uint8_t translated = dev_translate_address(&translated_addr);
+ if (translated != 0) {
+ //translation successful, access Device I/O (BAR or Legacy...)
+ DEBUG_PRINTF_IO("%s(%x, %x): access to Device I/O\n",
+ __FUNCTION__, addr, val);
+ //DEBUG_PRINTF_IO("%s(%04x): translated_addr: %llx\n", __FUNCTION__, addr, translated_addr);
+ write_io((void *) translated_addr, val, 1);
+ DEBUG_PRINTF_IO("%s(%04x) Device I/O <-- %02x\n", __FUNCTION__,
+ addr, val);
+ } else {
+ switch (addr) {
+ case 0xCFC:
+ case 0xCFD:
+ case 0xCFE:
+ case 0xCFF:
+ // PCI Config Mechanism 1 Ports
+ pci_cfg_write(addr, val, 1);
+ break;
+ default:
+ DEBUG_PRINTF_IO
+ ("%s(%04x,%02x) writing to bios_device.io_buffer\n",
+ __FUNCTION__, addr, val);
+ *((uint8_t *) (bios_device.io_buffer + addr)) = val;
+ break;
+ }
+ }
+}
+
+void
+my_outw(X86EMU_pioAddr addr, uint16_t val)
+{
+ uint64_t translated_addr = addr;
+ uint8_t translated = dev_translate_address(&translated_addr);
+ if (translated != 0) {
+ //translation successful, access Device I/O (BAR or Legacy...)
+ DEBUG_PRINTF_IO("%s(%x, %x): access to Device I/O\n",
+ __FUNCTION__, addr, val);
+ //DEBUG_PRINTF_IO("%s(%04x): translated_addr: %llx\n", __FUNCTION__, addr, translated_addr);
+ if ((translated_addr & (uint64_t) 0x1) == 0) {
+ // little-endian conversion
+ uint16_t tempval = in16le((void *) &val);
+ // 16 bit aligned access...
+ write_io((void *) translated_addr, tempval, 2);
+ } else {
+ // unaligned access, write single bytes, little-endian
+ write_io(((void *) (translated_addr + 1)),
+ (uint8_t) ((val & 0xFF00) >> 8), 1);
+ write_io(((void *) translated_addr),
+ (uint8_t) (val & 0x00FF), 1);
+ }
+ DEBUG_PRINTF_IO("%s(%04x) Device I/O <-- %04x\n", __FUNCTION__,
+ addr, val);
+ } else {
+ switch (addr) {
+ case 0xCFC:
+ case 0xCFE:
+ // PCI Config Mechanism 1 Ports
+ pci_cfg_write(addr, val, 2);
+ break;
+ default:
+ DEBUG_PRINTF_IO
+ ("%s(%04x,%04x) writing to bios_device.io_buffer\n",
+ __FUNCTION__, addr, val);
+ out16le((void *) bios_device.io_buffer + addr, val);
+ break;
+ }
+ }
+}
+
+void
+my_outl(X86EMU_pioAddr addr, uint32_t val)
+{
+ uint64_t translated_addr = addr;
+ uint8_t translated = dev_translate_address(&translated_addr);
+ if (translated != 0) {
+ //translation successful, access Device I/O (BAR or Legacy...)
+ DEBUG_PRINTF_IO("%s(%x, %x): access to Device I/O\n",
+ __FUNCTION__, addr, val);
+ //DEBUG_PRINTF_IO("%s(%04x): translated_addr: %llx\n", __FUNCTION__, addr, translated_addr);
+ if ((translated_addr & (uint64_t) 0x3) == 0) {
+ // little-endian conversion
+ uint32_t tempval = in32le((void *) &val);
+ // 32 bit aligned access...
+ write_io((void *) translated_addr, tempval, 4);
+ } else {
+ // unaligned access, write single bytes, little-endian
+ write_io(((void *) translated_addr + 3),
+ (uint8_t) ((val & 0xFF000000) >> 24), 1);
+ write_io(((void *) translated_addr + 2),
+ (uint8_t) ((val & 0x00FF0000) >> 16), 1);
+ write_io(((void *) translated_addr + 1),
+ (uint8_t) ((val & 0x0000FF00) >> 8), 1);
+ write_io(((void *) translated_addr),
+ (uint8_t) (val & 0x000000FF), 1);
+ }
+ DEBUG_PRINTF_IO("%s(%04x) Device I/O <-- %08x\n", __FUNCTION__,
+ addr, val);
+ } else {
+ switch (addr) {
+ case 0xCFC:
+ // PCI Config Mechanism 1 Ports
+ pci_cfg_write(addr, val, 4);
+ break;
+ default:
+ DEBUG_PRINTF_IO
+ ("%s(%04x,%08x) writing to bios_device.io_buffer\n",
+ __FUNCTION__, addr, val);
+ out32le((void *) bios_device.io_buffer + addr, val);
+ break;
+ }
+ }
+}
+
+uint32_t
+pci_cfg_read(X86EMU_pioAddr addr, uint8_t size)
+{
+ uint32_t rval = 0xFFFFFFFF;
+ if ((addr >= 0xCFC) && ((addr + size) <= 0xCFF)) {
+ // PCI Configuration Mechanism 1 step 1
+ // write to 0xCF8, sets bus, device, function and Config Space offset
+ // later read from 0xCFC-0xCFF returns the value...
+ uint8_t bus, devfn, offs;
+ uint32_t port_cf8_val = my_inl(0xCF8);
+ if ((port_cf8_val & 0x80000000) != 0) {
+ //highest bit enables config space mapping
+ bus = (port_cf8_val & 0x00FF0000) >> 16;
+ devfn = (port_cf8_val & 0x0000FF00) >> 8;
+ offs = (port_cf8_val & 0x000000FF);
+ offs += (addr - 0xCFC); // if addr is not 0xcfc, the offset is moved accordingly
+ if ((bus != bios_device.bus)
+ || (devfn != bios_device.devfn)) {
+ // fail accesses to any device but ours...
+ printf
+ ("Config access invalid! bus: %x, devfn: %x, offs: %x\n",
+ bus, devfn, offs);
+ HALT_SYS();
+ } else {
+ rval =
+ (uint32_t) rtas_pci_config_read(bios_device.
+ puid, size,
+ bus, devfn,
+ offs);
+ DEBUG_PRINTF_IO
+ ("%s(%04x) PCI Config Read @%02x, size: %d --> 0x%08x\n",
+ __FUNCTION__, addr, offs, size, rval);
+ }
+ }
+ }
+ return rval;
+}
+
+void
+pci_cfg_write(X86EMU_pioAddr addr, uint32_t val, uint8_t size)
+{
+ if ((addr >= 0xCFC) && ((addr + size) <= 0xCFF)) {
+ // PCI Configuration Mechanism 1 step 1
+ // write to 0xCF8, sets bus, device, function and Config Space offset
+ // later write to 0xCFC-0xCFF sets the value...
+ uint8_t bus, devfn, offs;
+ uint32_t port_cf8_val = my_inl(0xCF8);
+ if ((port_cf8_val & 0x80000000) != 0) {
+ //highest bit enables config space mapping
+ bus = (port_cf8_val & 0x00FF0000) >> 16;
+ devfn = (port_cf8_val & 0x0000FF00) >> 8;
+ offs = (port_cf8_val & 0x000000FF);
+ offs += (addr - 0xCFC); // if addr is not 0xcfc, the offset is moved accordingly
+ if ((bus != bios_device.bus)
+ || (devfn != bios_device.devfn)) {
+ // fail accesses to any device but ours...
+ printf
+ ("Config access invalid! bus: %x, devfn: %x, offs: %x\n",
+ bus, devfn, offs);
+ HALT_SYS();
+ } else {
+ rtas_pci_config_write(bios_device.puid,
+ size, bus, devfn, offs,
+ val);
+ DEBUG_PRINTF_IO
+ ("%s(%04x) PCI Config Write @%02x, size: %d <-- 0x%08x\n",
+ __FUNCTION__, addr, offs, size, val);
+ }
+ }
+ }
+}
+
+uint8_t
+handle_port_61h(void)
+{
+ static uint64_t last_time = 0;
+ uint64_t curr_time = get_time();
+ uint64_t time_diff; // time since last call
+ uint32_t period_ticks; // length of a period in ticks
+ uint32_t nr_periods; //number of periods passed since last call
+ // bit 4 should toggle with every (DRAM) refresh cycle... (66kHz??)
+ time_diff = curr_time - last_time;
+ // at 66kHz a period is ~ 15 ns long, converted to ticks: (tb_freq is ticks/second)
+ // TODO: as long as the frequency does not change, we should not calculate this every time
+ period_ticks = (15 * tb_freq) / 1000000;
+ nr_periods = time_diff / period_ticks;
+ // if the number if ticks passed since last call is odd, we toggle bit 4
+ if ((nr_periods % 2) != 0) {
+ *((uint8_t *) (bios_device.io_buffer + 0x61)) ^= 0x10;
+ }
+ //finally read the value from the io_buffer
+ return *((uint8_t *) (bios_device.io_buffer + 0x61));
+}