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openwrt-xburst/openwrt/package/linux/kernel-source/arch/mips/brcm-boards/bcm947xx/sbpci.c

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/*
* Low-Level PCI and SB support for BCM47xx
*
* Copyright 2004, Broadcom Corporation
* All Rights Reserved.
*
* THIS SOFTWARE IS OFFERED "AS IS", AND BROADCOM GRANTS NO WARRANTIES OF ANY
* KIND, EXPRESS OR IMPLIED, BY STATUTE, COMMUNICATION OR OTHERWISE. BROADCOM
* SPECIFICALLY DISCLAIMS ANY IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A SPECIFIC PURPOSE OR NONINFRINGEMENT CONCERNING THIS SOFTWARE.
*
* $Id$
*/
#include <typedefs.h>
#include <pcicfg.h>
#include <bcmdevs.h>
#include <sbconfig.h>
#include <sbpci.h>
#include <osl.h>
#include <bcmendian.h>
#include <bcmutils.h>
#include <sbutils.h>
#include <bcmnvram.h>
#include <hndmips.h>
/* Can free sbpci_init() memory after boot */
#ifndef linux
#define __init
#endif
/* Emulated configuration space */
static pci_config_regs sb_config_regs[SB_MAXCORES];
/* Banned cores */
static uint16 pci_ban[32] = { 0 };
static uint pci_banned = 0;
/* CardBus mode */
static bool cardbus = FALSE;
/* Disable PCI host core */
static bool pci_disabled = FALSE;
/*
* Functions for accessing external PCI configuration space
*/
/* Assume one-hot slot wiring */
#define PCI_SLOT_MAX 16
static uint32
config_cmd(void *sbh, uint bus, uint dev, uint func, uint off)
{
uint coreidx;
sbpciregs_t *regs;
uint32 addr = 0;
/* CardBusMode supports only one device */
if (cardbus && dev > 1)
return 0;
coreidx = sb_coreidx(sbh);
regs = (sbpciregs_t *) sb_setcore(sbh, SB_PCI, 0);
/* Type 0 transaction */
if (bus == 1) {
/* Skip unwired slots */
if (dev < PCI_SLOT_MAX) {
/* Slide the PCI window to the appropriate slot */
W_REG(&regs->sbtopci1, SBTOPCI_CFG0 | ((1 << (dev + 16)) & SBTOPCI1_MASK));
addr = SB_PCI_CFG | ((1 << (dev + 16)) & ~SBTOPCI1_MASK) |
(func << 8) | (off & ~3);
}
}
/* Type 1 transaction */
else {
W_REG(&regs->sbtopci1, SBTOPCI_CFG1);
addr = SB_PCI_CFG | (bus << 16) | (dev << 11) | (func << 8) | (off & ~3);
}
sb_setcoreidx(sbh, coreidx);
return addr;
}
static int
extpci_read_config(void *sbh, uint bus, uint dev, uint func, uint off, void *buf, int len)
{
uint32 addr, *reg = NULL, val;
int ret = 0;
if (pci_disabled ||
!(addr = config_cmd(sbh, bus, dev, func, off)) ||
!(reg = (uint32 *) REG_MAP(addr, len)) ||
BUSPROBE(val, reg))
val = 0xffffffff;
val >>= 8 * (off & 3);
if (len == 4)
*((uint32 *) buf) = val;
else if (len == 2)
*((uint16 *) buf) = (uint16) val;
else if (len == 1)
*((uint8 *) buf) = (uint8) val;
else
ret = -1;
if (reg)
REG_UNMAP(reg);
return ret;
}
static int
extpci_write_config(void *sbh, uint bus, uint dev, uint func, uint off, void *buf, int len)
{
uint32 addr, *reg = NULL, val;
int ret = 0;
if (pci_disabled ||
!(addr = config_cmd(sbh, bus, dev, func, off)) ||
!(reg = (uint32 *) REG_MAP(addr, len)) ||
BUSPROBE(val, reg))
goto done;
if (len == 4)
val = *((uint32 *) buf);
else if (len == 2) {
val &= ~(0xffff << (8 * (off & 3)));
val |= *((uint16 *) buf) << (8 * (off & 3));
} else if (len == 1) {
val &= ~(0xff << (8 * (off & 3)));
val |= *((uint8 *) buf) << (8 * (off & 3));
} else
ret = -1;
W_REG(reg, val);
done:
if (reg)
REG_UNMAP(reg);
return ret;
}
/*
* Functions for accessing translated SB configuration space
*/
static int
sb_read_config(void *sbh, uint bus, uint dev, uint func, uint off, void *buf, int len)
{
pci_config_regs *cfg;
if (dev >= SB_MAXCORES || (off + len) > sizeof(pci_config_regs))
return -1;
cfg = &sb_config_regs[dev];
ASSERT(ISALIGNED(off, len));
ASSERT(ISALIGNED(buf, len));
if (len == 4)
*((uint32 *) buf) = ltoh32(*((uint32 *)((ulong) cfg + off)));
else if (len == 2)
*((uint16 *) buf) = ltoh16(*((uint16 *)((ulong) cfg + off)));
else if (len == 1)
*((uint8 *) buf) = *((uint8 *)((ulong) cfg + off));
else
return -1;
return 0;
}
static int
sb_write_config(void *sbh, uint bus, uint dev, uint func, uint off, void *buf, int len)
{
uint coreidx, n;
void *regs;
sbconfig_t *sb;
pci_config_regs *cfg;
if (dev >= SB_MAXCORES || (off + len) > sizeof(pci_config_regs))
return -1;
cfg = &sb_config_regs[dev];
ASSERT(ISALIGNED(off, len));
ASSERT(ISALIGNED(buf, len));
/* Emulate BAR sizing */
if (off >= OFFSETOF(pci_config_regs, base[0]) && off <= OFFSETOF(pci_config_regs, base[3]) &&
len == 4 && *((uint32 *) buf) == ~0) {
coreidx = sb_coreidx(sbh);
if ((regs = sb_setcoreidx(sbh, dev))) {
sb = (sbconfig_t *)((ulong) regs + SBCONFIGOFF);
/* Highest numbered address match register */
n = (R_REG(&sb->sbidlow) & SBIDL_AR_MASK) >> SBIDL_AR_SHIFT;
if (off == OFFSETOF(pci_config_regs, base[0]))
cfg->base[0] = ~(sb_size(R_REG(&sb->sbadmatch0)) - 1);
else if (off == OFFSETOF(pci_config_regs, base[1]) && n >= 1)
cfg->base[1] = ~(sb_size(R_REG(&sb->sbadmatch1)) - 1);
else if (off == OFFSETOF(pci_config_regs, base[2]) && n >= 2)
cfg->base[2] = ~(sb_size(R_REG(&sb->sbadmatch2)) - 1);
else if (off == OFFSETOF(pci_config_regs, base[3]) && n >= 3)
cfg->base[3] = ~(sb_size(R_REG(&sb->sbadmatch3)) - 1);
}
sb_setcoreidx(sbh, coreidx);
return 0;
}
if (len == 4)
*((uint32 *)((ulong) cfg + off)) = htol32(*((uint32 *) buf));
else if (len == 2)
*((uint16 *)((ulong) cfg + off)) = htol16(*((uint16 *) buf));
else if (len == 1)
*((uint8 *)((ulong) cfg + off)) = *((uint8 *) buf);
else
return -1;
return 0;
}
int
sbpci_read_config(void *sbh, uint bus, uint dev, uint func, uint off, void *buf, int len)
{
if (bus == 0)
return sb_read_config(sbh, bus, dev, func, off, buf, len);
else
return extpci_read_config(sbh, bus, dev, func, off, buf, len);
}
int
sbpci_write_config(void *sbh, uint bus, uint dev, uint func, uint off, void *buf, int len)
{
if (bus == 0)
return sb_write_config(sbh, bus, dev, func, off, buf, len);
else
return extpci_write_config(sbh, bus, dev, func, off, buf, len);
}
void
sbpci_ban(uint16 core)
{
if (pci_banned < ARRAYSIZE(pci_ban))
pci_ban[pci_banned++] = core;
}
//#define CT4712_WR 1 /* Workaround for 4712 */
int __init
sbpci_init(void *sbh)
{
uint chip, chiprev, chippkg, coreidx, host, i;
uint32 boardflags;
sbpciregs_t *pci;
sbconfig_t *sb;
pci_config_regs *cfg;
void *regs;
char varname[8];
int CT4712_WR;
uint wlidx = 0;
uint16 vendor, core;
uint8 class, subclass, progif;
uint32 val;
uint32 sbips_int_mask[] = { 0, SBIPS_INT1_MASK, SBIPS_INT2_MASK, SBIPS_INT3_MASK, SBIPS_INT4_MASK };
uint32 sbips_int_shift[] = { 0, 0, SBIPS_INT2_SHIFT, SBIPS_INT3_SHIFT, SBIPS_INT4_SHIFT };
chip = sb_chip(sbh);
chiprev = sb_chiprev(sbh);
chippkg = sb_chippkg(sbh);
coreidx = sb_coreidx(sbh);
if (!(pci = (sbpciregs_t *) sb_setcore(sbh, SB_PCI, 0)))
return -1;
sb_core_reset(sbh, 0);
/* In some board, */
if(nvram_match("boardtype", "bcm94710dev") || nvram_match("boardtype", "bcm94710ap")|| nvram_match("boardtype", "bcm94710r4")|| nvram_match("boardtype", "bcm94710r4")|| nvram_match("boardtype", "bcm95365r"))
CT4712_WR = 0;
else
CT4712_WR = 1;
boardflags = (uint32) getintvar(NULL, "boardflags");
if ((chip == BCM4310_DEVICE_ID) && (chiprev == 0))
pci_disabled = TRUE;
/*
* The 200-pin BCM4712 package does not bond out PCI. Even when
* PCI is bonded out, some boards may leave the pins
* floating.
*/
if (((chip == BCM4712_DEVICE_ID) && (chippkg == BCM4712SMALL_PKG_ID)) ||
(boardflags & BFL_NOPCI) || CT4712_WR)
pci_disabled = TRUE;
/*
* If the PCI core should not be touched (disabled, not bonded
* out, or pins floating), do not even attempt to access core
* registers. Otherwise, try to determine if it is in host
* mode.
*/
if (pci_disabled)
host = 0;
else
host = !BUSPROBE(val, &pci->control);
if (!host) {
/* Disable PCI interrupts in client mode */
sb = (sbconfig_t *)((ulong) pci + SBCONFIGOFF);
W_REG(&sb->sbintvec, 0);
/* Disable the PCI bridge in client mode */
sbpci_ban(SB_PCI);
printf("PCI: Disabled\n");
} else {
/* Reset the external PCI bus and enable the clock */
W_REG(&pci->control, 0x5); /* enable the tristate drivers */
W_REG(&pci->control, 0xd); /* enable the PCI clock */
OSL_DELAY(150); /* delay > 100 us */
W_REG(&pci->control, 0xf); /* deassert PCI reset */
W_REG(&pci->arbcontrol, PCI_INT_ARB); /* use internal arbiter */
OSL_DELAY(1); /* delay 1 us */
/* Enable CardBusMode */
cardbus = nvram_match("cardbus", "1");
if (cardbus) {
printf("PCI: Enabling CardBus\n");
/* GPIO 1 resets the CardBus device on bcm94710ap */
sb_gpioout(sbh, 1, 1);
sb_gpioouten(sbh, 1, 1);
W_REG(&pci->sprom[0], R_REG(&pci->sprom[0]) | 0x400);
}
/* 64 MB I/O access window */
W_REG(&pci->sbtopci0, SBTOPCI_IO);
/* 64 MB configuration access window */
W_REG(&pci->sbtopci1, SBTOPCI_CFG0);
/* 1 GB memory access window */
W_REG(&pci->sbtopci2, SBTOPCI_MEM | SB_PCI_DMA);
/* Enable PCI bridge BAR0 prefetch and burst */
val = 6;
sbpci_write_config(sbh, 1, 0, 0, PCI_CFG_CMD, &val, sizeof(val));
/* Enable PCI interrupts */
W_REG(&pci->intmask, PCI_INTA);
}
/* Scan the SB bus */
bzero(sb_config_regs, sizeof(sb_config_regs));
for (cfg = sb_config_regs; cfg < &sb_config_regs[SB_MAXCORES]; cfg++) {
cfg->vendor = 0xffff;
if (!(regs = sb_setcoreidx(sbh, cfg - sb_config_regs)))
continue;
sb = (sbconfig_t *)((ulong) regs + SBCONFIGOFF);
/* Read ID register and parse vendor and core */
val = R_REG(&sb->sbidhigh);
vendor = (val & SBIDH_VC_MASK) >> SBIDH_VC_SHIFT;
core = (val & SBIDH_CC_MASK) >> SBIDH_CC_SHIFT;
progif = 0;
/* Check if this core is banned */
for (i = 0; i < pci_banned; i++)
if (core == pci_ban[i])
break;
if (i < pci_banned)
continue;
/* Known vendor translations */
switch (vendor) {
case SB_VEND_BCM:
vendor = VENDOR_BROADCOM;
break;
}
/* Determine class based on known core codes */
switch (core) {
case SB_ILINE20:
class = PCI_CLASS_NET;
subclass = PCI_NET_ETHER;
core = BCM47XX_ILINE_ID;
break;
case SB_ILINE100:
class = PCI_CLASS_NET;
subclass = PCI_NET_ETHER;
core = BCM4610_ILINE_ID;
break;
case SB_ENET:
class = PCI_CLASS_NET;
subclass = PCI_NET_ETHER;
core = BCM47XX_ENET_ID;
break;
case SB_SDRAM:
case SB_MEMC:
class = PCI_CLASS_MEMORY;
subclass = PCI_MEMORY_RAM;
break;
case SB_PCI:
class = PCI_CLASS_BRIDGE;
subclass = PCI_BRIDGE_PCI;
break;
case SB_MIPS:
case SB_MIPS33:
class = PCI_CLASS_CPU;
subclass = PCI_CPU_MIPS;
break;
case SB_CODEC:
class = PCI_CLASS_COMM;
subclass = PCI_COMM_MODEM;
core = BCM47XX_V90_ID;
break;
case SB_USB:
class = PCI_CLASS_SERIAL;
subclass = PCI_SERIAL_USB;
progif = 0x10; /* OHCI */
core = BCM47XX_USB_ID;
break;
case SB_USB11H:
class = PCI_CLASS_SERIAL;
subclass = PCI_SERIAL_USB;
progif = 0x10; /* OHCI */
core = BCM47XX_USBH_ID;
break;
case SB_USB11D:
class = PCI_CLASS_SERIAL;
subclass = PCI_SERIAL_USB;
core = BCM47XX_USBD_ID;
break;
case SB_IPSEC:
class = PCI_CLASS_CRYPT;
subclass = PCI_CRYPT_NETWORK;
core = BCM47XX_IPSEC_ID;
break;
case SB_EXTIF:
case SB_CC:
class = PCI_CLASS_MEMORY;
subclass = PCI_MEMORY_FLASH;
break;
case SB_D11:
class = PCI_CLASS_NET;
subclass = PCI_NET_OTHER;
/* Let an nvram variable override this */
sprintf(varname, "wl%did", wlidx);
wlidx++;
if ((core = getintvar(NULL, varname)) == 0) {
if (chip == BCM4712_DEVICE_ID) {
if (chippkg == BCM4712SMALL_PKG_ID)
core = BCM4306_D11G_ID;
else
core = BCM4306_D11DUAL_ID;
} else {
/* 4310 */
core = BCM4310_D11B_ID;
}
}
break;
default:
class = subclass = progif = 0xff;
break;
}
/* Supported translations */
cfg->vendor = htol16(vendor);
cfg->device = htol16(core);
cfg->rev_id = chiprev;
cfg->prog_if = progif;
cfg->sub_class = subclass;
cfg->base_class = class;
cfg->base[0] = htol32(sb_base(R_REG(&sb->sbadmatch0)));
cfg->base[1] = htol32(sb_base(R_REG(&sb->sbadmatch1)));
cfg->base[2] = htol32(sb_base(R_REG(&sb->sbadmatch2)));
cfg->base[3] = htol32(sb_base(R_REG(&sb->sbadmatch3)));
cfg->base[4] = 0;
cfg->base[5] = 0;
if (class == PCI_CLASS_BRIDGE && subclass == PCI_BRIDGE_PCI)
cfg->header_type = PCI_HEADER_BRIDGE;
else
cfg->header_type = PCI_HEADER_NORMAL;
/* Save core interrupt flag */
cfg->int_pin = R_REG(&sb->sbtpsflag) & SBTPS_NUM0_MASK;
/* Default to MIPS shared interrupt 0 */
cfg->int_line = 0;
/* MIPS sbipsflag maps core interrupt flags to interrupts 1 through 4 */
if ((regs = sb_setcore(sbh, SB_MIPS, 0)) ||
(regs = sb_setcore(sbh, SB_MIPS33, 0))) {
sb = (sbconfig_t *)((ulong) regs + SBCONFIGOFF);
val = R_REG(&sb->sbipsflag);
for (cfg->int_line = 1; cfg->int_line <= 4; cfg->int_line++) {
if (((val & sbips_int_mask[cfg->int_line]) >> sbips_int_shift[cfg->int_line]) == cfg->int_pin)
break;
}
if (cfg->int_line > 4)
cfg->int_line = 0;
}
/* Emulated core */
*((uint32 *) &cfg->sprom_control) = 0xffffffff;
}
sb_setcoreidx(sbh, coreidx);
return 0;
}
void
sbpci_check(void *sbh)
{
uint coreidx;
sbpciregs_t *pci;
uint32 sbtopci1;
uint32 buf[64], *ptr, i;
ulong pa;
volatile uint j;
coreidx = sb_coreidx(sbh);
pci = (sbpciregs_t *) sb_setcore(sbh, SB_PCI, 0);
/* Clear the test array */
pa = (ulong) DMA_MAP(NULL, buf, sizeof(buf), DMA_RX, NULL);
ptr = (uint32 *) OSL_UNCACHED(&buf[0]);
memset(ptr, 0, sizeof(buf));
/* Point PCI window 1 to memory */
sbtopci1 = R_REG(&pci->sbtopci1);
W_REG(&pci->sbtopci1, SBTOPCI_MEM | (pa & SBTOPCI1_MASK));
/* Fill the test array via PCI window 1 */
ptr = (uint32 *) REG_MAP(SB_PCI_CFG + (pa & ~SBTOPCI1_MASK), sizeof(buf));
for (i = 0; i < ARRAYSIZE(buf); i++) {
for (j = 0; j < 2; j++);
W_REG(&ptr[i], i);
}
REG_UNMAP(ptr);
/* Restore PCI window 1 */
W_REG(&pci->sbtopci1, sbtopci1);
/* Check the test array */
DMA_UNMAP(NULL, pa, sizeof(buf), DMA_RX, NULL);
ptr = (uint32 *) OSL_UNCACHED(&buf[0]);
for (i = 0; i < ARRAYSIZE(buf); i++) {
if (ptr[i] != i)
break;
}
/* Change the clock if the test fails */
if (i < ARRAYSIZE(buf)) {
uint32 req, cur;
cur = sb_clock(sbh);
printf("PCI: Test failed at %d MHz\n", (cur + 500000) / 1000000);
for (req = 104000000; req < 176000000; req += 4000000) {
printf("PCI: Resetting to %d MHz\n", (req + 500000) / 1000000);
/* This will only reset if the clocks are valid and have changed */
sb_mips_setclock(sbh, req, 0, 0);
}
/* Should not reach here */
ASSERT(0);
}
sb_setcoreidx(sbh, coreidx);
}