📄 dev_c7200_mpfpga.c
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/* * Cisco 7200 (Predator) simulation platform. * Copyright (c) 2005,2006 Christophe Fillot (cf@utc.fr) * * Cisco C7200 (Predator) Midplane FPGA. */#include <stdio.h>#include <stdlib.h>#include <string.h>#include "mips64.h"#include "dynamips.h"#include "memory.h"#include "device.h"#include "nmc93c46.h"#include "dev_c7200.h"#define DEBUG_UNKNOWN 1#define DEBUG_ACCESS 0#define DEBUG_OIR 0/* * Definitions for Port Adapter Status. */#define PCI_BAY0_3V_OK 0x00000002 /* IO card 3V */#define PCI_BAY0_5V_OK 0x00000004 /* IO card 5V */#define PCI_BAY1_5V_OK 0x00000200 /* Bay 1 5V */#define PCI_BAY1_3V_OK 0x00000400 /* Bay 1 3V */#define PCI_BAY2_5V_OK 0x00002000 /* Bay 2 5V */#define PCI_BAY2_3V_OK 0x00004000 /* Bay 2 3V */#define PCI_BAY3_5V_OK 0x02000000 /* Bay 3 5V */#define PCI_BAY3_3V_OK 0x04000000 /* Bay 3 3V */#define PCI_BAY4_5V_OK 0x00020000 /* Bay 4 5V */#define PCI_BAY4_3V_OK 0x00040000 /* Bay 4 3V */#define PCI_BAY5_5V_OK 0x20000000 /* Bay 5 5V */#define PCI_BAY5_3V_OK 0x40000000 /* Bay 5 3V */#define PCI_BAY6_5V_OK 0x00200000 /* Bay 6 5V */#define PCI_BAY6_3V_OK 0x00400000 /* Bay 6 3V *//* * Definitions for EEPROM access (slots 0,1,3,4) (0x60) */#define BAY0_EEPROM_SELECT_BIT 1#define BAY0_EEPROM_CLOCK_BIT 3#define BAY0_EEPROM_DIN_BIT 4#define BAY0_EEPROM_DOUT_BIT 6#define BAY1_EEPROM_SELECT_BIT 9#define BAY1_EEPROM_CLOCK_BIT 11#define BAY1_EEPROM_DIN_BIT 12#define BAY1_EEPROM_DOUT_BIT 14#define BAY3_EEPROM_SELECT_BIT 25#define BAY3_EEPROM_CLOCK_BIT 27#define BAY3_EEPROM_DIN_BIT 28#define BAY3_EEPROM_DOUT_BIT 30#define BAY4_EEPROM_SELECT_BIT 17#define BAY4_EEPROM_CLOCK_BIT 19#define BAY4_EEPROM_DIN_BIT 20#define BAY4_EEPROM_DOUT_BIT 22/* * Definitions for EEPROM access (slots 2,5,6) (0x68) */#define BAY2_EEPROM_SELECT_BIT 9#define BAY2_EEPROM_CLOCK_BIT 11#define BAY2_EEPROM_DIN_BIT 12#define BAY2_EEPROM_DOUT_BIT 14#define BAY5_EEPROM_SELECT_BIT 25#define BAY5_EEPROM_CLOCK_BIT 27#define BAY5_EEPROM_DIN_BIT 28#define BAY5_EEPROM_DOUT_BIT 30#define BAY6_EEPROM_SELECT_BIT 17#define BAY6_EEPROM_CLOCK_BIT 19#define BAY6_EEPROM_DIN_BIT 20#define BAY6_EEPROM_DOUT_BIT 22/* PA Bay EEPROM definitions */static const struct nmc93c46_eeprom_def eeprom_bay_def[C7200_MAX_PA_BAYS] = { /* Bay 0 */ { BAY0_EEPROM_CLOCK_BIT , BAY0_EEPROM_SELECT_BIT, BAY0_EEPROM_DIN_BIT , BAY0_EEPROM_DOUT_BIT, }, /* Bay 1 */ { BAY1_EEPROM_CLOCK_BIT , BAY1_EEPROM_SELECT_BIT, BAY1_EEPROM_DIN_BIT , BAY1_EEPROM_DOUT_BIT, }, /* Bay 2 */ { BAY2_EEPROM_CLOCK_BIT , BAY2_EEPROM_SELECT_BIT, BAY2_EEPROM_DIN_BIT , BAY2_EEPROM_DOUT_BIT, }, /* Bay 3 */ { BAY3_EEPROM_CLOCK_BIT , BAY3_EEPROM_SELECT_BIT, BAY3_EEPROM_DIN_BIT , BAY3_EEPROM_DOUT_BIT, }, /* Bay 4 */ { BAY4_EEPROM_CLOCK_BIT , BAY4_EEPROM_SELECT_BIT, BAY4_EEPROM_DIN_BIT , BAY4_EEPROM_DOUT_BIT, }, /* Bay 5 */ { BAY5_EEPROM_CLOCK_BIT , BAY5_EEPROM_SELECT_BIT, BAY5_EEPROM_DIN_BIT , BAY5_EEPROM_DOUT_BIT, }, /* Bay 6 */ { BAY6_EEPROM_CLOCK_BIT , BAY6_EEPROM_SELECT_BIT, BAY6_EEPROM_DIN_BIT , BAY6_EEPROM_DOUT_BIT, },};/* EEPROM group #1 (Bays 0, 1, 3, 4) */static const struct nmc93c46_group eeprom_bays_g1 = { 4, 0, "PA Bays (Group #1) EEPROM", FALSE, { &eeprom_bay_def[0], &eeprom_bay_def[1], &eeprom_bay_def[3], &eeprom_bay_def[4], },};/* EEPROM group #2 (Bays 2, 5, 6) */static const struct nmc93c46_group eeprom_bays_g2 = { 3, 0, "PA Bays (Group #2) EEPROM", FALSE, { &eeprom_bay_def[2], &eeprom_bay_def[5], &eeprom_bay_def[6] },};/* Midplane FPGA private data */struct mpfpga_data { vm_obj_t vm_obj; struct vdevice dev; c7200_t *router; m_uint32_t pa_status_reg; m_uint32_t pa_ctrl_reg;};/* Update Port Adapter Status */static void pa_update_status_reg(struct mpfpga_data *d){ m_uint32_t res = 0; /* PA Power. Bay 0 is always powered */ res |= PCI_BAY0_5V_OK | PCI_BAY0_3V_OK; /* We fake power on bays defined by the final user */ if (c7200_pa_check_eeprom(d->router,1)) res |= PCI_BAY1_5V_OK | PCI_BAY1_3V_OK; if (c7200_pa_check_eeprom(d->router,2)) res |= PCI_BAY2_5V_OK | PCI_BAY2_3V_OK; if (c7200_pa_check_eeprom(d->router,3)) res |= PCI_BAY3_5V_OK | PCI_BAY3_3V_OK; if (c7200_pa_check_eeprom(d->router,4)) res |= PCI_BAY4_5V_OK | PCI_BAY4_3V_OK; if (c7200_pa_check_eeprom(d->router,5)) res |= PCI_BAY5_5V_OK | PCI_BAY5_3V_OK; if (c7200_pa_check_eeprom(d->router,6)) res |= PCI_BAY6_5V_OK | PCI_BAY6_3V_OK; d->pa_status_reg = res;}/* * dev_mpfpga_access() */void *dev_c7200_mpfpga_access(cpu_mips_t *cpu,struct vdevice *dev, m_uint32_t offset,u_int op_size,u_int op_type, m_uint64_t *data){ struct mpfpga_data *d = dev->priv_data; if (op_type == MTS_READ) *data = 0x0; /* Optimization: this is written regularly */ if (offset == 0x7b) return NULL;#if DEBUG_ACCESS if (op_type == MTS_READ) { cpu_log(cpu,"MP_FPGA","reading reg 0x%x at pc=0x%llx (size=%u)\n", offset,cpu->pc,op_size); } else { cpu_log(cpu,"MP_FPGA", "writing reg 0x%x at pc=0x%llx, data=0x%llx (size=%u)\n", offset,cpu->pc,*data,op_size); }#endif switch(offset) { case 0x10: /* interrupt mask, should be done more efficiently */ case 0x11: case 0x12: case 0x13: if (op_type == MTS_READ) { *data = 0xFFFFFFFF; vm_clear_irq(d->router->vm,C7200_NETIO_IRQ); } break; case 0x18: /* interrupt mask, should be done more efficiently */ case 0x19: case 0x1a: if (op_type == MTS_READ) { *data = 0xFFFFFFFF; vm_clear_irq(d->router->vm,C7200_NETIO_IRQ); } break; /* * - PCI errors (seen with IRQ 6) * - Used when PA Mgmt IRQ is triggered. * * If the PA Mgmt IRQ is triggered for an undefined slot, a crash * occurs with "Error: Unexpected NM Interrupt received from slot: 6" * So, we use the PA status reg as mask to return something safe * (slot order is identical). */ case 0x40: if (op_type == MTS_READ) *data = 0x66666600 & d->pa_status_reg; mips64_clear_irq(cpu,C7200_PA_MGMT_IRQ); break; case 0x48: /* ??? (test) */ if (op_type == MTS_READ) *data = 0xFFFFFFFF; break; /* * This corresponds to err_stat in error message when IRQ 6 is * triggered. * * Bit 7 => SRAM error. * Bits 1-6 => OIR on slot 1-6 */ case 0x70: if (op_type == MTS_READ) {#if DEBUG_OIR cpu_log(cpu,"MP_FPGA","reading reg 0x%x at pc=0x%llx, val=0x%x\n", offset,cpu->pc,d->router->oir_status);#endif *data = d->router->oir_status; } else {#if DEBUG_OIR cpu_log(cpu,"MP_FPGA","writing reg 0x%x at pc=0x%llx " "(data=0x%llx)\n",offset,cpu->pc,*data);#endif d->router->oir_status &= ~(*data); vm_clear_irq(d->router->vm,C7200_OIR_IRQ); } break; /* * This corresponds to err_enable in error message when IRQ 6 is * triggered. No idea of what it really means. */ case 0x78: if (op_type == MTS_READ) {#if DEBUG_OIR cpu_log(cpu,"MP_FPGA","reading 0x78 at pc=0x%llx\n",cpu->pc);#endif *data = 0x00; } else {#if DEBUG_OIR cpu_log(cpu,"MP_FPGA","writing reg 0x78 at pc=0x%llx " "(data=0x%llx)\n",cpu->pc,*data);#endif } break; case 0x38: /* TDM status */ break; case 0x50: /* Port Adapter Status */ if (op_type == MTS_READ) { pa_update_status_reg(d); *data = d->pa_status_reg; } break; case 0x58: /* Port Adapter Control */ if (op_type == MTS_WRITE) d->pa_ctrl_reg = *data; else *data = d->pa_ctrl_reg; break; case 0x60: /* EEPROM for PA in slots 0,1,3,4 */ if (op_type == MTS_WRITE) nmc93c46_write(&d->router->pa_eeprom_g1,*data); else *data = nmc93c46_read(&d->router->pa_eeprom_g1); break; case 0x68: /* EEPROM for PA in slots 2,5,6 */ if (op_type == MTS_WRITE) nmc93c46_write(&d->router->pa_eeprom_g2,*data); else *data = nmc93c46_read(&d->router->pa_eeprom_g2); break; case 0x7b: /* ??? */ break;#if DEBUG_UNKNOWN default: if (op_type == MTS_READ) { cpu_log(cpu,"MP_FPGA","read from addr 0x%x, pc=0x%llx\n", offset,cpu->pc); } else { cpu_log(cpu,"MP_FPGA","write to addr 0x%x, value=0x%llx, " "pc=0x%llx\n",offset,*data,cpu->pc); }#endif } return NULL;}/* Initialize EEPROM groups */static void init_eeprom_groups(c7200_t *router){ /* Group 1: bays 0, 1, 3, 4 */ router->pa_eeprom_g1 = eeprom_bays_g1; router->pa_eeprom_g1.eeprom[0] = &router->pa_bay[0].eeprom; router->pa_eeprom_g1.eeprom[1] = &router->pa_bay[1].eeprom; router->pa_eeprom_g1.eeprom[2] = &router->pa_bay[3].eeprom; router->pa_eeprom_g1.eeprom[3] = &router->pa_bay[4].eeprom; /* Group 2: bays 2, 5, 6 */ router->pa_eeprom_g2 = eeprom_bays_g2; router->pa_eeprom_g2.eeprom[0] = &router->pa_bay[2].eeprom; router->pa_eeprom_g2.eeprom[1] = &router->pa_bay[5].eeprom; router->pa_eeprom_g2.eeprom[2] = &router->pa_bay[6].eeprom;}/* Shutdown the MP FPGA device */void dev_c7200_mpfpga_shutdown(vm_instance_t *vm,struct mpfpga_data *d){ if (d != NULL) { /* Remove the device */ dev_remove(vm,&d->dev); /* Free the structure itself */ free(d); }}/* * dev_c7200_mpfpga_init() */int dev_c7200_mpfpga_init(c7200_t *router,m_uint64_t paddr,m_uint32_t len){ struct mpfpga_data *d; /* Allocate private data structure */ if (!(d = malloc(sizeof(*d)))) { fprintf(stderr,"MP_FPGA: out of memory\n"); return(-1); } memset(d,0,sizeof(*d)); d->router = router; /* Initialize EEPROMs */ init_eeprom_groups(router); vm_object_init(&d->vm_obj); d->vm_obj.name = "mp_fpga"; d->vm_obj.data = d; d->vm_obj.shutdown = (vm_shutdown_t)dev_c7200_mpfpga_shutdown; /* Set device properties */ dev_init(&d->dev); d->dev.name = "mp_fpga"; d->dev.phys_addr = paddr; d->dev.phys_len = len; d->dev.handler = dev_c7200_mpfpga_access; d->dev.priv_data = d; /* Map this device to the VM */ vm_bind_device(router->vm,&d->dev); vm_object_add(router->vm,&d->vm_obj); return(0);}⌨️ 快捷键说明
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