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u-boot-brain/arch/x86/cpu/queensbay/irq.c
Bin Meng afbf1404c1 x86: queensbay: Implement PIRQ routing 
Implement Intel Queensbay platform-specific PIRQ routing support.
The chipset PIRQ routing setup is called in the arch_misc_init().

Signed-off-by: Bin Meng <bmeng.cn@gmail.com>
Acked-by: Simon Glass <sjg@chromium.org>
2015-04-29 18:51:49 -06:00

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7.4 KiB
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/*
* Copyright (C) 2015, Bin Meng <bmeng.cn@gmail.com>
*
* SPDX-License-Identifier: GPL-2.0+
*/
#include <common.h>
#include <errno.h>
#include <malloc.h>
#include <asm/io.h>
#include <asm/pci.h>
#include <asm/post.h>
#include <asm/processor.h>
#include <asm/pirq_routing.h>
#include <asm/arch/device.h>
#include <asm/arch/tnc.h>
#include <asm/arch/irq.h>
static struct irq_routing_table *pirq_routing_table;
bool pirq_check_irq_routed(int link, u8 irq)
{
u8 pirq;
pirq = x86_pci_read_config8(TNC_LPC, LINK_N2V(link));
pirq &= 0xf;
/* IRQ# 0/1/2/8/13 are reserved */
if (pirq < 3 || pirq == 8 || pirq == 13)
return false;
return pirq == irq ? true : false;
}
int pirq_translate_link(int link)
{
return LINK_V2N(link);
}
void pirq_assign_irq(int link, u8 irq)
{
/* IRQ# 0/1/2/8/13 are reserved */
if (irq < 3 || irq == 8 || irq == 13)
return;
x86_pci_write_config8(TNC_LPC, LINK_N2V(link), irq);
}
static inline void fill_irq_info(struct irq_info **slotp, int *entries, u8 bus,
u8 device, u8 func, u8 pin, u8 pirq)
{
struct irq_info *slot = *slotp;
slot->bus = bus;
slot->devfn = (device << 3) | func;
slot->irq[pin - 1].link = LINK_N2V(pirq);
slot->irq[pin - 1].bitmap = PIRQ_BITMAP;
(*entries)++;
(*slotp)++;
}
/* PCIe port downstream INTx swizzle */
static inline u8 pin_swizzle(u8 pin, int port)
{
return (pin + port) % 4;
}
__weak int board_fill_irq_info(struct irq_info *slot)
{
return 0;
}
static int create_pirq_routing_table(void)
{
struct irq_routing_table *rt;
struct irq_info *slot;
int irq_entries = 0;
pci_dev_t tcf_bdf;
u8 tcf_bus, bus;
int i;
rt = malloc(sizeof(struct irq_routing_table));
if (!rt)
return -ENOMEM;
memset((char *)rt, 0, sizeof(struct irq_routing_table));
/* Populate the PIRQ table fields */
rt->signature = PIRQ_SIGNATURE;
rt->version = PIRQ_VERSION;
rt->rtr_bus = 0;
rt->rtr_devfn = (TNC_LPC_DEV << 3) | TNC_LPC_FUNC;
rt->rtr_vendor = PCI_VENDOR_ID_INTEL;
rt->rtr_device = PCI_DEVICE_ID_INTEL_ICH7_31;
slot = rt->slots;
/*
* Now fill in the irq_info entries in the PIRQ table
*
* We start from internal TunnelCreek PCI devices first, then
* followed by all the 4 PCIe ports downstream devices, including
* the Queensbay platform Topcliff chipset devices.
*/
fill_irq_info(&slot, &irq_entries, 0, TNC_IGD_DEV,
TNC_IGD_FUNC, INTA, PIRQE);
fill_irq_info(&slot, &irq_entries, 0, TNC_SDVO_DEV,
TNC_SDVO_FUNC, INTA, PIRQF);
fill_irq_info(&slot, &irq_entries, 0, TNC_HDA_DEV,
TNC_HDA_FUNC, INTA, PIRQG);
fill_irq_info(&slot, &irq_entries, 0, TNC_PCIE0_DEV,
TNC_PCIE0_FUNC, INTA, PIRQE);
fill_irq_info(&slot, &irq_entries, 0, TNC_PCIE1_DEV,
TNC_PCIE1_FUNC, INTA, PIRQF);
fill_irq_info(&slot, &irq_entries, 0, TNC_PCIE2_DEV,
TNC_PCIE2_FUNC, INTA, PIRQG);
fill_irq_info(&slot, &irq_entries, 0, TNC_PCIE3_DEV,
TNC_PCIE3_FUNC, INTA, PIRQH);
/* Check which PCIe port the Topcliff chipset is connected to */
tcf_bdf = pci_find_device(PCI_VENDOR_ID_INTEL, 0x8800, 0);
tcf_bus = PCI_BUS(tcf_bdf);
for (i = 0; i < 4; i++) {
bus = x86_pci_read_config8(PCI_BDF(0, TNC_PCIE0_DEV + i, 0),
PCI_SECONDARY_BUS);
if (bus == tcf_bus)
break;
}
/* Fill in the Topcliff chipset devices' irq info */
if (i < 4) {
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_PCIE_PORT_DEV,
TCF_PCIE_PORT_FUNC, INTA, pin_swizzle(PIRQA, i));
tcf_bus++;
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_0,
TCF_GBE_FUNC, INTA, pin_swizzle(PIRQA, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_0,
TCF_GPIO_FUNC, INTA, pin_swizzle(PIRQA, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_2,
TCF_USB1_OHCI0_FUNC, INTB, pin_swizzle(PIRQB, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_2,
TCF_USB1_OHCI1_FUNC, INTB, pin_swizzle(PIRQB, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_2,
TCF_USB1_OHCI2_FUNC, INTB, pin_swizzle(PIRQB, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_2,
TCF_USB1_EHCI_FUNC, INTB, pin_swizzle(PIRQB, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_2,
TCF_USB_DEVICE_FUNC, INTB, pin_swizzle(PIRQB, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_4,
TCF_SDIO0_FUNC, INTC, pin_swizzle(PIRQC, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_4,
TCF_SDIO1_FUNC, INTC, pin_swizzle(PIRQC, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_6,
TCF_SATA_FUNC, INTD, pin_swizzle(PIRQD, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_8,
TCF_USB2_OHCI0_FUNC, INTA, pin_swizzle(PIRQA, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_8,
TCF_USB2_OHCI1_FUNC, INTA, pin_swizzle(PIRQA, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_8,
TCF_USB2_OHCI2_FUNC, INTA, pin_swizzle(PIRQA, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_8,
TCF_USB2_EHCI_FUNC, INTA, pin_swizzle(PIRQA, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_10,
TCF_DMA1_FUNC, INTB, pin_swizzle(PIRQB, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_10,
TCF_UART0_FUNC, INTB, pin_swizzle(PIRQB, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_10,
TCF_UART1_FUNC, INTB, pin_swizzle(PIRQB, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_10,
TCF_UART2_FUNC, INTB, pin_swizzle(PIRQB, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_10,
TCF_UART3_FUNC, INTB, pin_swizzle(PIRQB, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_12,
TCF_DMA2_FUNC, INTC, pin_swizzle(PIRQC, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_12,
TCF_SPI_FUNC, INTC, pin_swizzle(PIRQC, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_12,
TCF_I2C_FUNC, INTC, pin_swizzle(PIRQC, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_12,
TCF_CAN_FUNC, INTC, pin_swizzle(PIRQC, i));
fill_irq_info(&slot, &irq_entries, tcf_bus, TCF_DEV_12,
TCF_1588_FUNC, INTC, pin_swizzle(PIRQC, i));
}
/* Call board-specific routine to fill in add-in card's irq info */
irq_entries += board_fill_irq_info(slot);
rt->size = irq_entries * sizeof(struct irq_info) + 32;
pirq_routing_table = rt;
return 0;
}
void pirq_init(void)
{
struct tnc_rcba *rcba;
u32 base;
base = x86_pci_read_config32(TNC_LPC, LPC_RCBA);
base &= ~MEM_BAR_EN;
rcba = (struct tnc_rcba *)base;
/* Make sure all internal PCI devices are using INTA */
writel(INTA, &rcba->d02ip);
writel(INTA, &rcba->d03ip);
writel(INTA, &rcba->d27ip);
writel(INTA, &rcba->d31ip);
writel(INTA, &rcba->d23ip);
writel(INTA, &rcba->d24ip);
writel(INTA, &rcba->d25ip);
writel(INTA, &rcba->d26ip);
/*
* Route TunnelCreek PCI device interrupt pin to PIRQ
*
* Since PCIe downstream ports received INTx are routed to PIRQ
* A/B/C/D directly and not configurable, we route internal PCI
* device's INTx to PIRQ E/F/G/H.
*/
writew(PIRQE, &rcba->d02ir);
writew(PIRQF, &rcba->d03ir);
writew(PIRQG, &rcba->d27ir);
writew(PIRQH, &rcba->d31ir);
writew(PIRQE, &rcba->d23ir);
writew(PIRQF, &rcba->d24ir);
writew(PIRQG, &rcba->d25ir);
writew(PIRQH, &rcba->d26ir);
if (create_pirq_routing_table()) {
debug("Failed to create pirq routing table\n");
} else {
/* Route PIRQ */
pirq_route_irqs(pirq_routing_table->slots,
get_irq_slot_count(pirq_routing_table));
}
}
u32 write_pirq_routing_table(u32 addr)
{
return copy_pirq_routing_table(addr, pirq_routing_table);
}
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