/**
* @file
* @ingroup leon2_rasta
* @brief GR-RASTA-IO PCI board driver
*/
/*
* GR-RASTA-IO PCI board driver
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rtems.org/license/LICENSE.
*/
#include <rtems/bspIo.h>
#include <pci.h>
#include <rasta.h>
#include <ambapp.h>
#include <grlib.h>
#include <grcan_rasta.h>
#include <grspw_rasta.h>
#include <b1553brm_rasta.h>
#include <apbuart_rasta.h>
#include <string.h>
/* If RASTA_SRAM is defined SRAM will be used, else SDRAM */
/*#define RASTA_SRAM 1*/
#define RASTA_IRQ 5
/* Offset from 0x80000000 (dual bus version) */
#define AHB1_IOAREA_BASE_ADDR 0x80100000
#define APB2_OFFSET 0x200000
#define IRQ_OFFSET 0x200500
#define GRHCAN_OFFSET 0x201000
#define BRM_OFFSET 0x100000
#define SPW_OFFSET 0xa00
#define UART_OFFSET 0x200200
#define GPIO0_OFF 0x200600
#define GPIO1_OFF 0x200700
/* #define DEBUG 1 */
#ifdef DEBUG
#define DBG(x...) printk(x)
#else
#define DBG(x...)
#endif
static int bus, dev, fun;
struct irqmp_regs *irq = NULL;
LEON_Register_Map *regs = (LEON_Register_Map *)0x80000000;
struct gpio_reg *gpio0, *gpio1;
/* static rtems_isr pci_interrupt_handler (rtems_vector_number v) { */
/* volatile unsigned int *pci_int = (volatile unsigned int *) 0x80000168; */
/* volatile unsigned int *pci_mem = (volatile unsigned int *) 0xb0400000; */
/* if (*pci_int & 0x20) { */
/* *pci_int = 0x20; */
/* *pci_mem = 0; */
/* printk("pci died\n"); */
/* } */
/* } */
void *uart0_int_arg, *uart1_int_arg;
void *spw0_int_arg, *spw1_int_arg, *spw2_int_arg;
void *grcan_int_arg;
void *brm_int_arg;
void (*uart0_int_handler)(int irq, void *arg) = NULL;
void (*uart1_int_handler)(int irq, void *arg) = NULL;
void (*spw0_int_handler)(int irq, void *arg) = NULL;
void (*spw1_int_handler)(int irq, void *arg) = NULL;
void (*spw2_int_handler)(int irq, void *arg) = NULL;
void (*grcan_int_handler)(int irq, void *arg) = NULL;
void (*brm_int_handler)(int irq, void *arg) = NULL;
static rtems_isr rasta_interrupt_handler (rtems_vector_number v)
{
unsigned int status;
status = irq->ipend;
if ( (status & GRCAN_IRQ) && grcan_int_handler ) {
grcan_int_handler(GRCAN_IRQNO,grcan_int_arg);
}
if (status & SPW_IRQ) {
if ( (status & SPW0_IRQ) && spw0_int_handler ){
spw0_int_handler(SPW0_IRQNO,spw0_int_arg);
}
if ( (status & SPW1_IRQ) && spw1_int_handler ){
spw1_int_handler(SPW1_IRQNO,spw1_int_arg);
}
if ( (status & SPW2_IRQ) && spw2_int_handler ){
spw2_int_handler(SPW2_IRQNO,spw2_int_arg);
}
}
if ((status & BRM_IRQ) && brm_int_handler ){
brm_int_handler(BRM_IRQNO,brm_int_arg);
}
if ( (status & UART0_IRQ) && uart0_int_handler ) {
uart0_int_handler(UART0_IRQNO,uart0_int_arg);
}
if ( (status & UART1_IRQ) && uart1_int_handler) {
uart1_int_handler(UART1_IRQNO,uart1_int_arg);
}
DBG("RASTA-IRQ: 0x%x\n",status);
irq->iclear = status;
}
void rasta_interrrupt_register(void *handler, int irqno, void *arg)
{
DBG("RASTA: Registering irq %d\n",irqno);
if ( irqno == UART0_IRQNO ){
DBG("RASTA: Registering uart0 handler: 0x%x, arg: 0x%x\n",handler,arg);
uart0_int_handler = handler;
uart0_int_arg = arg;
/* unmask interrupt source */
irq->iclear = UART0_IRQ;
irq->mask[0] |= UART0_IRQ;
}
if ( irqno == UART1_IRQNO ){
DBG("RASTA: Registering uart1 handler: 0x%x, arg: 0x%x\n",handler,arg);
uart1_int_handler = handler;
uart1_int_arg = arg;
/* unmask interrupt source */
irq->iclear = UART1_IRQ;
irq->mask[0] |= UART1_IRQ;
}
if ( irqno == SPW0_IRQNO ){
DBG("RASTA: Registering spw0 handler: 0x%x, arg: 0x%x\n",handler,arg);
spw0_int_handler = handler;
spw0_int_arg = arg;
/* unmask interrupt source */
irq->iclear = SPW0_IRQ;
irq->mask[0] |= SPW0_IRQ;
}
if ( irqno == SPW1_IRQNO ){
DBG("RASTA: Registering spw1 handler: 0x%x, arg: 0x%x\n",handler,arg);
spw1_int_handler = handler;
spw1_int_arg = arg;
/* unmask interrupt source */
irq->iclear = SPW1_IRQ;
irq->mask[0] |= SPW1_IRQ;
}
if ( irqno == SPW2_IRQNO ){
DBG("RASTA: Registering spw2 handler: 0x%x, arg: 0x%x\n",handler,arg);
spw2_int_handler = handler;
spw2_int_arg = arg;
/* unmask interrupt source */
irq->iclear = SPW2_IRQ;
irq->mask[0] |= SPW2_IRQ;
}
if ( irqno == GRCAN_IRQNO ){
DBG("RASTA: Registering GRCAN handler: 0x%x, arg: 0x%x\n",handler,arg);
grcan_int_handler = handler;
grcan_int_arg = arg;
/* unmask interrupt source */
irq->iclear = GRCAN_IRQ;
irq->mask[0] |= GRCAN_IRQ;
}
if ( irqno == BRM_IRQNO ){
DBG("RASTA: Registering BRM handler: 0x%x, arg: 0x%x\n",handler,arg);
brm_int_handler = handler;
brm_int_arg = arg;
/* unmask interrupt source */
irq->iclear = BRM_IRQ;
irq->mask[0] |= BRM_IRQ;
}
}
int rasta_get_gpio(struct ambapp_bus *abus, int index, struct gpio_reg **regs,
int *irq)
{
struct ambapp_apb_info dev;
int cores;
if ( !abus )
return -1;
/* Scan PnP info for GPIO port number 'index' */
cores = ambapp_find_apbslv_next(abus, VENDOR_GAISLER, GAISLER_GPIO, &dev,
index);
if ( cores < 1 )
return -1;
if ( regs )
*regs = (struct gpio_reg *)dev.start;
if ( irq )
*irq = dev.irq;
return 0;
}
/* AMBA Plug&Play information */
static struct ambapp_bus abus;
static struct ambapp_mmap amba_maps[3];
int rasta_register(void)
{
unsigned int bar0, bar1, data;
unsigned int *page0 = NULL;
unsigned int *apb_base = NULL;
int found=0;
DBG("Searching for RASTA board ...");
/* Search PCI vendor/device id. */
if (BSP_pciFindDevice(0x1AC8, 0x0010, 0, &bus, &dev, &fun) == 0) {
found = 1;
}
/* Search old PCI vendor/device id. */
if ( (!found) && (BSP_pciFindDevice(0x16E3, 0x0210, 0, &bus, &dev, &fun) == 0) ) {
found = 1;
}
/* Did we find a RASTA board? */
if ( !found )
return -1;
DBG(" found it (dev/fun: %d/%d).\n", dev, fun);
pci_read_config_dword(bus, dev, fun, 0x10, &bar0);
pci_read_config_dword(bus, dev, fun, 0x14, &bar1);
page0 = (unsigned int *)(bar0 + 0x400000);
*page0 = 0x80000000; /* Point PAGE0 to start of APB */
apb_base = (unsigned int *)(bar0+APB2_OFFSET);
/* apb_base[0] = 0x000002ff;
apb_base[1] = 0x8a205260;
apb_base[2] = 0x00184000; */
/* Configure memory controller */
#ifdef RASTA_SRAM
apb_base[0] = 0x000002ff;
apb_base[1] = 0x00001260;
apb_base[2] = 0x000e8000;
#else
apb_base[0] = 0x000002ff;
apb_base[1] = 0x82206000;
apb_base[2] = 0x000e8000;
#endif
/* Set up rasta irq controller */
irq = (struct irqmp_regs *) (bar0+IRQ_OFFSET);
irq->iclear = 0xffff;
irq->ilevel = 0;
irq->mask[0] = 0xffff & ~(UART0_IRQ|UART1_IRQ|SPW0_IRQ|SPW1_IRQ|SPW2_IRQ|GRCAN_IRQ|BRM_IRQ);
/* Configure AT697 ioport bit 7 to input pci irq */
regs->PIO_Direction &= ~(1<<7);
regs->PIO_Interrupt |= (0x87<<8); /* level sensitive */
apb_base[0x100] |= 0x40000000; /* Set GRPCI mmap 0x4 */
apb_base[0x104] = 0x40000000; /* 0xA0000000; Point PAGE1 to RAM */
/* set parity error response */
pci_read_config_dword(bus, dev, fun, 0x4, &data);
pci_write_config_dword(bus, dev, fun, 0x4, data|0x40);
pci_master_enable(bus, dev, fun);
/* install PCI interrupt vector */
/* set_vector(pci_interrupt_handler,14+0x10, 1); */
/* install interrupt vector */
set_vector(rasta_interrupt_handler, RASTA_IRQ+0x10, 1);
/* Scan AMBA Plug&Play */
/* AMBA MAP bar0 (in CPU) ==> 0x80000000(remote amba address) */
amba_maps[0].size = 0x10000000;
amba_maps[0].local_adr = bar0;
amba_maps[0].remote_adr = 0x80000000;
/* AMBA MAP bar1 (in CPU) ==> 0x40000000(remote amba address) */
amba_maps[1].size = 0x10000000;
amba_maps[1].local_adr = bar1;
amba_maps[1].remote_adr = 0x40000000;
/* Mark end of table */
amba_maps[2].size=0;
amba_maps[2].local_adr = 0;
amba_maps[2].remote_adr = 0;
memset(&abus,0,sizeof(abus));
/* Start AMBA PnP scan at first AHB bus */
ambapp_scan(&abus, bar0 + (AHB1_IOAREA_BASE_ADDR & ~0xf0000000), NULL,
&amba_maps[0]);
printk("Registering RASTA GRCAN driver\n\r");
/*grhcan_register(bar0 + GRHCAN_OFFSET, bar1);*/
grcan_rasta_int_reg=rasta_interrrupt_register;
if ( grcan_rasta_ram_register(&abus,bar1+0x20000) ){
printk("Failed to register RASTA GRCAN driver\n\r");
return -1;
}
printk("Registering RASTA BRM driver\n\r");
/*brm_register(bar0 + BRM_OFFSET, bar1);*/
/* register the BRM RASTA driver, use 128k on RASTA SRAM... */
b1553brm_rasta_int_reg=rasta_interrrupt_register;
if ( b1553brm_rasta_register(&abus,2,0,3,bar1,0x40000000) ){
printk("Failed to register BRM RASTA driver\n");
return -1;
}
/* provide the spacewire driver with AMBA Plug&Play
* info so that it can find the GRSPW cores.
*/
grspw_rasta_int_reg=rasta_interrrupt_register;
if ( grspw_rasta_register(&abus,bar1) ){
printk("Failed to register RASTA GRSPW driver\n\r");
return -1;
}
/* provide the spacewire driver with AMBA Plug&Play
* info so that it can find the GRSPW cores.
*/
apbuart_rasta_int_reg=rasta_interrrupt_register;
if ( apbuart_rasta_register(&abus) ){
printk("Failed to register RASTA APBUART driver\n\r");
return -1;
}
/* Find GPIO0 address */
if ( rasta_get_gpio(&abus,0,&gpio0,NULL) ){
printk("Failed to get address for RASTA GPIO0\n\r");
return -1;
}
/* Find GPIO1 address */
if ( rasta_get_gpio(&abus,1,&gpio1,NULL) ){
printk("Failed to get address for RASTA GPIO1\n\r");
return -1;
}
/* Successfully registered the RASTA board */
return 0;
}