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/* SPDX-License-Identifier: GPL-2.0-only */
#include <console/console.h>
#include <device/device.h>
#include <acpi/acpi.h>
#include <amdblocks/amd_pci_util.h>
#include <FspsUpd.h>
#include <soc/cpu.h>
#include <soc/southbridge.h>
#include <soc/pci_devs.h>
#include <soc/platform_descriptors.h>
#include <soc/soc_util.h>
#include <types.h>
#include <commonlib/helpers.h>
#include <chip.h>
#include "gpio.h"
/* TODO: recheck IRQ tables */
/*
* These arrays set up the FCH PCI_INTR registers 0xC00/0xC01.
* This table is responsible for physically routing the PIC and
* IOAPIC IRQs to the different PCI devices on the system. It
* is read and written via registers 0xC00/0xC01 as an
* Index/Data pair. These values are chipset and mainboard
* dependent and should be updated accordingly.
*/
static uint8_t fch_pic_routing[0x80];
static uint8_t fch_apic_routing[0x80];
_Static_assert(sizeof(fch_pic_routing) == sizeof(fch_apic_routing),
"PIC and APIC FCH interrupt tables must be the same size");
/*
* This table doesn't actually perform any routing. It only populates the
* PCI_INTERRUPT_LINE register on the PCI device with the PIC value specified
* in fch_apic_routing. The linux kernel only looks at this field as a backup
* if ACPI routing fails to describe the PCI routing correctly. The linux kernel
* also uses the APIC by default, so the value coded into the registers will be
* wrong.
*
* This table is also confusing because PCI Interrupt routing happens at the
* device/slot level, not the function level.
*/
static const struct pirq_struct mainboard_pirq_data[] = {
{ PCIE_GPP_0_DEVFN, { PIRQ_A, PIRQ_B, PIRQ_C, PIRQ_D } },
{ PCIE_GPP_1_DEVFN, { PIRQ_A, PIRQ_B, PIRQ_C, PIRQ_D } },
{ PCIE_GPP_2_DEVFN, { PIRQ_A, PIRQ_B, PIRQ_C, PIRQ_D } },
{ PCIE_GPP_3_DEVFN, { PIRQ_A, PIRQ_B, PIRQ_C, PIRQ_D } },
{ PCIE_GPP_4_DEVFN, { PIRQ_A, PIRQ_B, PIRQ_C, PIRQ_D } },
{ PCIE_GPP_5_DEVFN, { PIRQ_A, PIRQ_B, PIRQ_C, PIRQ_D } },
{ PCIE_GPP_6_DEVFN, { PIRQ_A, PIRQ_B, PIRQ_C, PIRQ_D } },
{ PCIE_GPP_A_DEVFN, { PIRQ_A, PIRQ_B, PIRQ_C, PIRQ_D } },
{ PCIE_GPP_B_DEVFN, { PIRQ_A, PIRQ_B, PIRQ_C, PIRQ_D } },
{ SMBUS_DEVFN, { PIRQ_SMBUS, PIRQ_NC, PIRQ_NC, PIRQ_NC } },
};
static const struct fch_irq_routing {
uint8_t intr_index;
uint8_t pic_irq_num;
uint8_t apic_irq_num;
} mandolin_fch[] = {
{ PIRQ_A, 8, 16 },
{ PIRQ_B, 10, 17 },
{ PIRQ_C, 11, 18 },
{ PIRQ_D, 12, 19 },
{ PIRQ_SCI, 9, 9 },
{ PIRQ_SD, PIRQ_NC, 16 },
{ PIRQ_SDIO, PIRQ_NC, 16 },
{ PIRQ_SATA, PIRQ_NC, 19 },
{ PIRQ_EMMC, PIRQ_NC, 17 },
{ PIRQ_GPIO, 7, 7 },
{ PIRQ_I2C2, 6, 6 },
{ PIRQ_I2C3, 14, 14 },
{ PIRQ_UART0, 4, 4 },
{ PIRQ_UART1, 3, 3 },
{ PIRQ_UART2, 4, 4 },
{ PIRQ_UART3, 3, 3 },
/* The MISC registers are not interrupt numbers */
{ PIRQ_MISC, 0xfa, 0x00 },
{ PIRQ_MISC0, 0x91, 0x00 },
{ PIRQ_MISC1, 0x00, 0x00 },
{ PIRQ_MISC2, 0x00, 0x00 },
};
static void init_tables(void)
{
const struct fch_irq_routing *entry;
int i;
memset(fch_pic_routing, PIRQ_NC, sizeof(fch_pic_routing));
memset(fch_apic_routing, PIRQ_NC, sizeof(fch_apic_routing));
for (i = 0; i < ARRAY_SIZE(mandolin_fch); i++) {
entry = mandolin_fch + i;
fch_pic_routing[entry->intr_index] = entry->pic_irq_num;
fch_apic_routing[entry->intr_index] = entry->apic_irq_num;
}
}
static void pirq_setup(void)
{
init_tables();
pirq_data_ptr = mainboard_pirq_data;
pirq_data_size = ARRAY_SIZE(mainboard_pirq_data);
intr_data_ptr = fch_apic_routing;
picr_data_ptr = fch_pic_routing;
}
static void mainboard_init(void *chip_info)
{
struct soc_amd_picasso_config *cfg = config_of_soc();
if (!CONFIG(PICASSO_LPC_IOMUX))
cfg->sd_emmc_config = SD_EMMC_EMMC_HS400;
mainboard_program_gpios();
}
static const fsp_pcie_descriptor pco_pcie_descriptors[] = {
{ /* MXM */
.port_present = true,
.engine_type = PCIE_ENGINE,
.start_lane = 8,
.end_lane = 15,
.device_number = 1,
.function_number = 1,
.link_aspm = ASPM_L1,
.link_aspm_L1_1 = true,
.link_aspm_L1_2 = true,
.turn_off_unused_lanes = true,
.clk_req = CLK_REQ6
},
{ /* SSD */
.port_present = true,
.engine_type = PCIE_ENGINE,
.start_lane = 0,
.end_lane = 1,
.device_number = 1,
.function_number = 7,
.link_aspm = ASPM_L1,
.link_aspm_L1_1 = true,
.link_aspm_L1_2 = true,
.turn_off_unused_lanes = true,
.clk_req = CLK_REQ5
},
{ /* WLAN */
.port_present = true,
.engine_type = PCIE_ENGINE,
.start_lane = 4,
.end_lane = 4,
.device_number = 1,
.function_number = 2,
.link_aspm = ASPM_L1,
.link_aspm_L1_1 = true,
.link_aspm_L1_2 = true,
.turn_off_unused_lanes = true,
.clk_req = CLK_REQ0
},
{ /* LAN */
.port_present = true,
.engine_type = PCIE_ENGINE,
.start_lane = 5,
.end_lane = 5,
.device_number = 1,
.function_number = 3,
.link_aspm = ASPM_L1,
.link_aspm_L1_1 = true,
.link_aspm_L1_2 = true,
.turn_off_unused_lanes = true,
.clk_req = CLK_REQ1
},
{ /* WWAN */
.port_present = true,
.engine_type = PCIE_ENGINE,
.start_lane = 2,
.end_lane = 2,
.device_number = 1,
.function_number = 4,
.link_aspm = ASPM_L1,
.link_aspm_L1_1 = true,
.link_aspm_L1_2 = true,
.turn_off_unused_lanes = true,
.clk_req = CLK_REQ2
},
{ /* WIFI */
.port_present = true,
.engine_type = PCIE_ENGINE,
.start_lane = 3,
.end_lane = 3,
.gpio_group_id = 1,
.device_number = 1,
.function_number = 5,
.link_aspm = ASPM_L1,
.link_aspm_L1_1 = true,
.link_aspm_L1_2 = true,
.turn_off_unused_lanes = true,
.clk_req = CLK_REQ3
},
{ /* SATA EXPRESS */
.port_present = true,
.engine_type = SATA_ENGINE,
.start_lane = 6,
.end_lane = 7,
.gpio_group_id = 1,
.channel_type = SATA_CHANNEL_LONG,
}
};
static const fsp_pcie_descriptor dali_pcie_descriptors[] = {
{ // MXM
.port_present = true,
.engine_type = PCIE_ENGINE,
.start_lane = 8,
.end_lane = 11,
.device_number = 1,
.function_number = 1,
.link_aspm = ASPM_L1,
.link_aspm_L1_1 = true,
.link_aspm_L1_2 = true,
.turn_off_unused_lanes = true,
.clk_req = CLK_REQ6
},
{ // SSD
.port_present = true,
.engine_type = PCIE_ENGINE,
.start_lane = 0,
.end_lane = 1,
.device_number = 1,
.function_number = 7,
.link_aspm = ASPM_L1,
.link_aspm_L1_1 = true,
.link_aspm_L1_2 = true,
.turn_off_unused_lanes = true,
.clk_req = CLK_REQ5
},
{ // WLAN
.port_present = true,
.engine_type = PCIE_ENGINE,
.start_lane = 4,
.end_lane = 4,
.device_number = 1,
.function_number = 2,
.link_aspm = ASPM_L1,
.link_aspm_L1_1 = true,
.link_aspm_L1_2 = true,
.turn_off_unused_lanes = true,
.clk_req = CLK_REQ0
},
{ // LAN
.port_present = true,
.engine_type = PCIE_ENGINE,
.start_lane = 5,
.end_lane = 5,
.device_number = 1,
.function_number = 3,
.link_aspm = ASPM_L1,
.link_aspm_L1_1 = true,
.link_aspm_L1_2 = true,
.turn_off_unused_lanes = true,
.clk_req = CLK_REQ1
}
};
static const fsp_ddi_descriptor pco_ddi_descriptors[] = {
{ // DDI0 - DP
.connector_type = DP,
.aux_index = AUX1,
.hdp_index = HDP1
},
{ /* DDI1 - eDP */
.connector_type = EDP,
.aux_index = AUX2,
.hdp_index = HDP2
},
{ /* DDI2 - DP */
.connector_type = DP,
.aux_index = AUX3,
.hdp_index = HDP3,
},
{ /* DDI3 - DP */
.connector_type = DP,
.aux_index = AUX4,
.hdp_index = HDP4,
}
};
static const fsp_ddi_descriptor dali_ddi_descriptors[] = {
{ // DDI0 - DP
.connector_type = DP,
.aux_index = AUX1,
.hdp_index = HDP1
},
{ // DDI1 - eDP
.connector_type = EDP,
.aux_index = AUX2,
.hdp_index = HDP2
},
{ // DDI2 - DP
.connector_type = DP,
.aux_index = AUX3,
.hdp_index = HDP3,
}
};
void mainboard_get_pcie_ddi_descriptors(
const fsp_pcie_descriptor **pcie_descs, size_t *pcie_num,
const fsp_ddi_descriptor **ddi_descs, size_t *ddi_num)
{
/* Dali */
if (soc_is_dali()) {
*pcie_descs = dali_pcie_descriptors;
*pcie_num = ARRAY_SIZE(dali_pcie_descriptors);
*ddi_descs = dali_ddi_descriptors;
*ddi_num = ARRAY_SIZE(dali_ddi_descriptors);
}
/* Picasso and default */
else {
*pcie_descs = pco_pcie_descriptors;
*pcie_num = ARRAY_SIZE(pco_pcie_descriptors);
*ddi_descs = pco_ddi_descriptors;
*ddi_num = ARRAY_SIZE(pco_ddi_descriptors);
}
}
static void mandolin_enable(struct device *dev)
{
printk(BIOS_INFO, "Mainboard " CONFIG_MAINBOARD_PART_NUMBER " Enable.\n");
/* Initialize the PIRQ data structures for consumption */
pirq_setup();
}
struct chip_operations mainboard_ops = {
.init = mainboard_init,
.enable_dev = mandolin_enable,
};
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