Source to ./dev_c2691_iofpga.c
/*
* Cisco router simulation platform.
* Copyright (c) 2006 Christophe Fillot ([email protected])
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <sys/types.h>
#include <termios.h>
#include <fcntl.h>
#include <pthread.h>
#include "ptask.h"
#include "cpu.h"
#include "vm.h"
#include "dynamips.h"
#include "memory.h"
#include "device.h"
#include "dev_vtty.h"
#include "nmc93cX6.h"
#include "dev_c2691.h"
/* Debugging flags */
#define DEBUG_UNKNOWN 1
#define DEBUG_ACCESS 0
#define DEBUG_NET_IRQ 0
/* Definitions for Mainboard EEPROM */
#define EEPROM_MB_DOUT 3
#define EEPROM_MB_DIN 2
#define EEPROM_MB_CLK 1
#define EEPROM_MB_CS 0
/* Definitions for Network Modules EEPROM */
#define EEPROM_NM_DOUT 7
#define EEPROM_NM_DIN 6
#define EEPROM_NM_CLK 2
#define EEPROM_NM_CS 4
/* Network IRQ distribution */
struct net_irq_distrib {
u_int reg;
u_int offset;
};
static struct net_irq_distrib net_irq_dist[C2691_MAX_NM_BAYS] = {
{ 0, 0 }, /* Slot 0: reg 0x26, 0x000000XX */
{ 1, 0 }, /* Slot 1: reg 0x28, 0x000000XX */
};
/* IO FPGA structure */
struct c2691_iofpga_data {
vm_obj_t vm_obj;
struct vdevice dev;
c2691_t *router;
/* Network IRQ status */
m_uint16_t net_irq_status[2];
/* Interrupt mask */
m_uint16_t intr_mask;
/* WIC select */
u_int wic_select;
u_int wic_cmd_pos;
u_int wic_cmd_valid;
m_uint16_t wic_cmd[2];
};
/* Mainboard EEPROM definition */
static const struct nmc93cX6_eeprom_def eeprom_mb_def = {
EEPROM_MB_CLK, EEPROM_MB_CS,
EEPROM_MB_DIN, EEPROM_MB_DOUT,
};
/* Mainboard EEPROM */
static const struct nmc93cX6_group eeprom_mb_group = {
EEPROM_TYPE_NMC93C46, 1, 0,
EEPROM_DORD_NORMAL,
EEPROM_DOUT_HIGH,
EEPROM_DEBUG_DISABLED,
"Mainboard EEPROM",
{ &eeprom_mb_def },
};
/* NM EEPROM definition */
static const struct nmc93cX6_eeprom_def eeprom_nm_def = {
EEPROM_NM_CLK, EEPROM_NM_CS,
EEPROM_NM_DIN, EEPROM_NM_DOUT,
};
/* NM EEPROM */
static const struct nmc93cX6_group eeprom_nm_group = {
EEPROM_TYPE_NMC93C46, 1, 0,
EEPROM_DORD_NORMAL,
EEPROM_DOUT_HIGH,
EEPROM_DEBUG_DISABLED,
"NM EEPROM",
{ &eeprom_nm_def },
};
/* Update network interrupt status */
static inline void dev_c2691_iofpga_net_update_irq(struct c2691_iofpga_data *d)
{
if ((d->net_irq_status[0] != 0xFFFF) || (d->net_irq_status[1] != 0xFFFF)) {
vm_set_irq(d->router->vm,C2691_NETIO_IRQ);
} else {
vm_clear_irq(d->router->vm,C2691_NETIO_IRQ);
}
}
/* Trigger a Network IRQ for the specified slot/port */
void dev_c2691_iofpga_net_set_irq(struct c2691_iofpga_data *d,
u_int slot,u_int port)
{
struct net_irq_distrib *irq_dist;
#if DEBUG_NET_IRQ
vm_log(d->router->vm,"IO_FPGA","setting NetIRQ for slot %u port %u\n",
slot,port);
#endif
irq_dist = &net_irq_dist[slot];
d->net_irq_status[irq_dist->reg] &= ~(1 << (irq_dist->offset + port));
dev_c2691_iofpga_net_update_irq(d);
}
/* Clear a Network IRQ for the specified slot/port */
void dev_c2691_iofpga_net_clear_irq(struct c2691_iofpga_data *d,
u_int slot,u_int port)
{
struct net_irq_distrib *irq_dist;
#if DEBUG_NET_IRQ
vm_log(d->router->vm,"IO_FPGA","clearing NetIRQ for slot %u port %u\n",
slot,port);
#endif
irq_dist = &net_irq_dist[slot];
d->net_irq_status[irq_dist->reg] |= (1 << (irq_dist->offset + port));
dev_c2691_iofpga_net_update_irq(d);
}
/* Read a WIC EEPROM */
static m_uint16_t dev_c2691_read_wic_eeprom(struct c2691_iofpga_data *d)
{
struct cisco_eeprom *eeprom;
u_int wic_port;
u_int eeprom_offset;
m_uint8_t val[2];
switch(d->wic_select) {
case 0x1700:
wic_port = 0x10;
break;
case 0x1D00:
wic_port = 0x20;
break;
case 0x3500:
wic_port = 0x30;
break;
default:
wic_port = 0;
}
/* No WIC in slot or no EEPROM: fake an empty EEPROM */
if (!wic_port || !(eeprom = vm_slot_get_eeprom(d->router->vm,0,wic_port)))
return(0xFFFF);
/* EEPROM offset is in the lowest 6 bits */
eeprom_offset = d->wic_cmd[0] & 0x3F;
cisco_eeprom_get_byte(eeprom,eeprom_offset,&val[0]);
cisco_eeprom_get_byte(eeprom,eeprom_offset+1,&val[1]);
return(((m_uint16_t)val[0] << 8) | val[1]);
}
/*
* dev_c2691_iofpga_access()
*/
static void *
dev_c2691_iofpga_access(cpu_gen_t *cpu,struct vdevice *dev,
m_uint32_t offset,u_int op_size,u_int op_type,
m_uint64_t *data)
{
struct c2691_iofpga_data *d = dev->priv_data;
if (op_type == MTS_READ)
*data = 0x0;
#if DEBUG_ACCESS
if (op_type == MTS_READ) {
cpu_log(cpu,"IO_FPGA","reading reg 0x%x at pc=0x%llx (size=%u)\n",
offset,cpu_get_pc(cpu),op_size);
} else {
cpu_log(cpu,"IO_FPGA",
"writing reg 0x%x at pc=0x%llx, data=0x%llx (size=%u)\n",
offset,cpu_get_pc(cpu),*data,op_size);
}
#endif
switch(offset) {
/*
* Platform type ?
* 0x04 and 0x05 seem to work.
*/
case 0x36:
if (op_type == MTS_READ)
*data = 0x04 << 5;
break;
/* Mainboard EEPROM */
case 0x0e:
if (op_type == MTS_WRITE)
nmc93cX6_write(&d->router->mb_eeprom_group,(u_int)(*data));
else
*data = nmc93cX6_read(&d->router->mb_eeprom_group);
break;
case 0x12:
/*
* Bit 0: 1=No WIC in slot 0.
* Bit 1: 1=No WIC in slot 1.
* Bit 2: 1=No WIC in slot 2.
*/
if (op_type == MTS_READ) {
*data = 0xFFFF;
/* check WIC 0 */
if (vm_slot_check_eeprom(d->router->vm,0,0x10))
*data &= ~0x01;
/* check WIC 1 */
if (vm_slot_check_eeprom(d->router->vm,0,0x20))
*data &= ~0x02;
/* check WIC 2 */
if (vm_slot_check_eeprom(d->router->vm,0,0x30))
*data &= ~0x04;
} else {
d->wic_select = *data;
}
break;
case 0x14:
if (op_type == MTS_READ)
*data = 0xFFFF;
break;
case 0x18:
if (op_type == MTS_READ)
*data = 0xFFFF;
break;
/* wic/vwic related */
case 0x40:
if (op_type == MTS_READ)
*data = 0x0004;
break;
/* WIC related: 16-bit data */
case 0x42:
if (op_type == MTS_READ) {
if (d->wic_cmd_valid) {
*data = dev_c2691_read_wic_eeprom(d);
d->wic_cmd_valid = FALSE;
} else {
*data = 0xFFFF;
}
} else {
/*
* Store the EEPROM command (in 2 words).
*
* For a read, we have:
* Word 0: 0x180 (nmc93c46 READ) + offset (6-bits).
* Word 1: 0 (no data).
*/
d->wic_cmd[d->wic_cmd_pos++] = *data;
if (d->wic_cmd_pos == 2) {
d->wic_cmd_pos = 0;
d->wic_cmd_valid = TRUE;
}
}
break;
/* NM Slot 1 EEPROM */
case 0x44:
if (op_type == MTS_WRITE)
nmc93cX6_write(&d->router->nm_eeprom_group,(u_int)(*data));
else
*data = nmc93cX6_read(&d->router->nm_eeprom_group);
break;
/* AIM EEPROM #0 */
case 0x48:
if (op_type == MTS_READ)
*data = 0xFFFF;
break;
/* AIM EEPROM #1 */
case 0x4a:
if (op_type == MTS_READ)
*data = 0xFFFF;
break;
/*
* NM Presence.
*
* Bit 7: 0=NM present in slot 1.
* Other bits unknown.
*/
case 0x20:
if (op_type == MTS_READ) {
*data = 0xFFFF;
if (vm_slot_get_card_ptr(d->router->vm,1))
*data &= ~0x08;
}
break;
/* ??? */
case 0x24:
break;
/* Intr Mask (sh platform) */
case 0x30:
if (op_type == MTS_READ)
*data = d->intr_mask;
else
d->intr_mask = *data;
break;
/*
* Network interrupt status.
*
* Bit 0: 0 = GT96100 Ethernet ports.
* Other bits unknown.
*/
case 0x26:
if (op_type == MTS_READ)
*data = d->net_irq_status[0];
break;
/*
* Network interrupt status.
*
* Bit 0: 0 = NM in Slot 1.
* Other bits unknown.
*/
case 0x28:
if (op_type == MTS_READ)
*data = d->net_irq_status[1];
break;
case 0x2c:
if (op_type == MTS_READ)
*data = 0xFFFF;
break;
/* OIR interrupt but not supported (IRQ 6) */
case 0x2e:
if (op_type == MTS_READ)
*data = 0xFFFF;
break;
/*
* Environmental monitor, determined with "sh env all".
*
* Bit 0: 1 = Fan Error
* Bit 1: 1 = Fan Error
* Bit 2: 1 = Over-temperature
* Bit 3: ???
* Bit 4: 0 = RPS present.
* Bit 5: 0 = Input Voltage status failure.
* Bit 6: 1 = Thermal status failure.
* Bit 7: 1 = DC Output Voltage status failure.
*/
case 0x3a:
if (op_type == MTS_READ)
*data = 0x0020;
break;
/*
* Bit 0: Slot0 Compact Flash presence.
* Bit 1: System Compact Flash presence.
*/
case 0x3c:
if (op_type == MTS_READ) {
*data = 0xFFFF;
/* System Flash ? */
if (cpu->vm->pcmcia_disk_size[0])
*data &= ~0x02;
/* Slot0 Flash ? */
if (cpu->vm->pcmcia_disk_size[1])
*data &= ~0x01;
}
break;
#if DEBUG_UNKNOWN
default:
if (op_type == MTS_READ) {
cpu_log(cpu,"IO_FPGA",
"read from unknown addr 0x%x, pc=0x%llx (size=%u)\n",
offset,cpu_get_pc(cpu),op_size);
} else {
cpu_log(cpu,"IO_FPGA",
"write to unknown addr 0x%x, value=0x%llx, "
"pc=0x%llx (size=%u)\n",
offset,*data,cpu_get_pc(cpu),op_size);
}
#endif
}
return NULL;
}
/* Initialize EEPROM groups */
void c2691_init_eeprom_groups(c2691_t *router)
{
/* Initialize Mainboard EEPROM */
router->mb_eeprom_group = eeprom_mb_group;
router->mb_eeprom_group.eeprom[0] = &router->mb_eeprom;
router->mb_eeprom.data = NULL;
router->mb_eeprom.len = 0;
/* EEPROM for NM slot 1 */
router->nm_eeprom_group = eeprom_nm_group;
router->nm_eeprom_group.eeprom[0] = NULL;
}
/* Shutdown the IO FPGA device */
static void
dev_c2691_iofpga_shutdown(vm_instance_t *vm,struct c2691_iofpga_data *d)
{
if (d != NULL) {
/* Remove the device */
dev_remove(vm,&d->dev);
/* Free the structure itself */
free(d);
}
}
/*
* dev_c2691_iofpga_init()
*/
int dev_c2691_iofpga_init(c2691_t *router,m_uint64_t paddr,m_uint32_t len)
{
vm_instance_t *vm = router->vm;
struct c2691_iofpga_data *d;
/* Allocate private data structure */
if (!(d = malloc(sizeof(*d)))) {
fprintf(stderr,"IO_FPGA: out of memory\n");
return(-1);
}
memset(d,0,sizeof(*d));
d->router = router;
d->net_irq_status[0] = 0xFFFF;
d->net_irq_status[1] = 0xFFFF;
vm_object_init(&d->vm_obj);
d->vm_obj.name = "io_fpga";
d->vm_obj.data = d;
d->vm_obj.shutdown = (vm_shutdown_t)dev_c2691_iofpga_shutdown;
/* Set device properties */
dev_init(&d->dev);
d->dev.name = "io_fpga";
d->dev.phys_addr = paddr;
d->dev.phys_len = len;
d->dev.priv_data = d;
d->dev.handler = dev_c2691_iofpga_access;
/* Map this device to the VM */
vm_bind_device(router->vm,&d->dev);
vm_object_add(vm,&d->vm_obj);
return(0);
}