mirror of
https://github.com/AsahiLinux/u-boot
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5ee0fa722c
This patch adds a fixup function related to a PCIe FLR (Function Level Reset) problem on the NIC23 PCIe board. This function is imported from the Marvell Octeon 2013 U-Boot version as a (nearly) verbatim copy. It uses the newly introduced cyclic infrastructure, so that this function gets called every 100us, which is needed to detect this FLR issue. Signed-off-by: Aaron Williams <awilliams@marvell.com> Signed-off-by: Stefan Roese <sr@denx.de>
388 lines
11 KiB
C
388 lines
11 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* Copyright (C) 2021-2022 Stefan Roese <sr@denx.de>
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*/
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#include <cyclic.h>
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#include <dm.h>
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#include <ram.h>
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#include <time.h>
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#include <asm/gpio.h>
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#include <mach/octeon_ddr.h>
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#include <mach/cvmx-qlm.h>
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#include <mach/octeon_qlm.h>
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#include <mach/octeon_fdt.h>
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#include <mach/cvmx-helper.h>
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#include <mach/cvmx-helper-cfg.h>
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#include <mach/cvmx-helper-util.h>
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#include <mach/cvmx-bgxx-defs.h>
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#include <mach/cvmx-dtx-defs.h>
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#include "board_ddr.h"
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/**
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* cvmx_spem#_cfg_rd
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*
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* This register allows read access to the configuration in the PCIe core.
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*
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*/
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union cvmx_spemx_cfg_rd {
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u64 u64;
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struct cvmx_spemx_cfg_rd_s {
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u64 data : 32;
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u64 addr : 32;
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} s;
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struct cvmx_spemx_cfg_rd_s cn73xx;
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};
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/**
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* cvmx_spem#_cfg_wr
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*
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* This register allows write access to the configuration in the PCIe core.
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*
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*/
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union cvmx_spemx_cfg_wr {
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u64 u64;
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struct cvmx_spemx_cfg_wr_s {
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u64 data : 32;
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u64 addr : 32;
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} s;
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struct cvmx_spemx_cfg_wr_s cn73xx;
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};
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/**
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* cvmx_spem#_flr_pf_stopreq
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*
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* PF function level reset stop outbound requests register.
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* Hardware automatically sets the STOPREQ bit for the PF when it enters a
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* function level reset (FLR). Software is responsible for clearing the STOPREQ
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* bit but must not do so prior to hardware taking down the FLR, which could be
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* as long as 100ms. It may be appropriate for software to wait longer before clearing
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* STOPREQ, software may need to drain deep DPI queues for example.
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* Whenever SPEM receives a PF or child VF request mastered by CNXXXX over S2M (i.e. P or NP),
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* when STOPREQ is set for the function, SPEM will discard the outgoing request
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* before sending it to the PCIe core. If a NP, SPEM will schedule an immediate
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* SWI_RSP_ERROR completion for the request - no timeout is required.
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* In both cases, SPEM()_DBG_PF()_INFO[P()_BMD_E] will be set and a error
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* interrupt is generated.
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*
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* STOPREQ mimics the behavior of PCIEEP()_CFG001[ME] for outbound requests that will
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* master the PCIe bus (P and NP).
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*
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* STOPREQ will have no effect on completions returned by CNXXXX over the S2M,
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* nor on M2S traffic.
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*
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* When a PF()_STOPREQ is set, none of the associated
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* PEM()_FLR_PF()_VF_STOPREQ[VF_STOPREQ] will be set.
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*
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* STOPREQ is reset when the MAC is reset, and is not reset after a chip soft reset.
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*/
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union cvmx_spemx_flr_pf_stopreq {
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u64 u64;
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struct cvmx_spemx_flr_pf_stopreq_s {
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u64 reserved_3_63 : 61;
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u64 pf2_stopreq : 1;
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u64 pf1_stopreq : 1;
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u64 pf0_stopreq : 1;
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} s;
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struct cvmx_spemx_flr_pf_stopreq_s cn73xx;
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};
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#define CVMX_SPEMX_CFG_WR(offset) 0x00011800C0000028ull
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#define CVMX_SPEMX_CFG_RD(offset) 0x00011800C0000030ull
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#define CVMX_SPEMX_FLR_PF_STOPREQ(offset) 0x00011800C0000218ull
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#define DTX_SELECT_LTSSM 0x0
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#define DTX_SELECT_LTSSM_ENA 0x3ff
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#define LTSSM_L0 0x11
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#define NIC23_DEF_DRAM_FREQ 800
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static u32 pci_cfgspace_reg0[2] = { 0, 0 };
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static u8 octeon_nic23_cfg0_spd_values[512] = {
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OCTEON_NIC23_CFG0_SPD_VALUES
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};
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static struct ddr_conf board_ddr_conf[] = {
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OCTEON_NIC23_DDR_CONFIGURATION
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};
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struct ddr_conf *octeon_ddr_conf_table_get(int *count, int *def_ddr_freq)
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{
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*count = ARRAY_SIZE(board_ddr_conf);
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*def_ddr_freq = NIC23_DEF_DRAM_FREQ;
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return board_ddr_conf;
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}
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int board_fix_fdt(void *fdt)
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{
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u32 range_data[5 * 8];
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bool rev4;
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int node;
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int rc;
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/*
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* ToDo:
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* Read rev4 info from EEPROM or where the original U-Boot does
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* and don't hard-code it here.
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*/
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rev4 = true;
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debug("%s() rev4: %s\n", __func__, rev4 ? "true" : "false");
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/* Patch the PHY configuration based on board revision */
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rc = octeon_fdt_patch_rename(fdt,
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rev4 ? "4,nor-flash" : "4,no-nor-flash",
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"cavium,board-trim", false, NULL, NULL);
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if (!rev4) {
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/* Modify the ranges for CS 0 */
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node = fdt_node_offset_by_compatible(fdt, -1,
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"cavium,octeon-3860-bootbus");
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if (node < 0) {
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printf("%s: Error: cannot find boot bus in device tree!\n",
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__func__);
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return -1;
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}
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rc = fdtdec_get_int_array(fdt, node, "ranges",
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range_data, 5 * 8);
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if (rc) {
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printf("%s: Error reading ranges from boot bus FDT\n",
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__func__);
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return -1;
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}
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range_data[2] = cpu_to_fdt32(0x10000);
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range_data[3] = 0;
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range_data[4] = 0;
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rc = fdt_setprop(fdt, node, "ranges", range_data,
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sizeof(range_data));
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if (rc) {
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printf("%s: Error updating boot bus ranges in fdt\n",
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__func__);
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}
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}
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return rc;
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}
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int board_early_init_f(void)
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{
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struct gpio_desc gpio = {};
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ofnode node;
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/* Initial GPIO configuration */
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/* GPIO 7: Vitesse reset */
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node = ofnode_by_compatible(ofnode_null(), "vitesse,vsc7224");
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if (ofnode_valid(node)) {
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gpio_request_by_name_nodev(node, "los", 0, &gpio, GPIOD_IS_IN);
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dm_gpio_free(gpio.dev, &gpio);
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gpio_request_by_name_nodev(node, "reset", 0, &gpio,
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GPIOD_IS_OUT);
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if (dm_gpio_is_valid(&gpio)) {
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/* Vitesse reset */
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debug("%s: Setting GPIO 7 to 1\n", __func__);
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dm_gpio_set_value(&gpio, 1);
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}
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dm_gpio_free(gpio.dev, &gpio);
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}
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/* SFP+ transmitters */
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ofnode_for_each_compatible_node(node, "ethernet,sfp-slot") {
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gpio_request_by_name_nodev(node, "tx_disable", 0,
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&gpio, GPIOD_IS_OUT);
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if (dm_gpio_is_valid(&gpio)) {
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debug("%s: Setting GPIO %d to 1\n", __func__,
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gpio.offset);
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dm_gpio_set_value(&gpio, 1);
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}
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dm_gpio_free(gpio.dev, &gpio);
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gpio_request_by_name_nodev(node, "mod_abs", 0, &gpio,
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GPIOD_IS_IN);
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dm_gpio_free(gpio.dev, &gpio);
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gpio_request_by_name_nodev(node, "tx_error", 0, &gpio,
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GPIOD_IS_IN);
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dm_gpio_free(gpio.dev, &gpio);
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gpio_request_by_name_nodev(node, "rx_los", 0, &gpio,
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GPIOD_IS_IN);
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dm_gpio_free(gpio.dev, &gpio);
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}
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return 0;
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}
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void board_configure_qlms(void)
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{
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octeon_configure_qlm(4, 3000, CVMX_QLM_MODE_SATA_2X1, 0, 0, 0, 0);
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octeon_configure_qlm(5, 103125, CVMX_QLM_MODE_XFI_1X2, 0, 0, 2, 0);
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/* Apply amplitude tuning to 10G interface */
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octeon_qlm_tune_v3(0, 4, 3000, -1, -1, 7, -1);
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octeon_qlm_tune_v3(0, 5, 103125, 0x19, 0x0, -1, -1);
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octeon_qlm_set_channel_v3(0, 5, 0);
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octeon_qlm_dfe_disable(0, 5, -1, 103125, CVMX_QLM_MODE_XFI_1X2);
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debug("QLM 4 reference clock: %d\n"
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"DLM 5 reference clock: %d\n",
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cvmx_qlm_measure_clock(4), cvmx_qlm_measure_clock(5));
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}
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/**
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* If there is a PF FLR then the PCI EEPROM is not re-read. In this case
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* we need to re-program the vendor and device ID immediately after hardware
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* completes FLR.
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*
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* PCI spec requires FLR to be completed within 100ms. The user who triggered
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* FLR expects hardware to finish FLR within 100ms, otherwise the user will
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* end up reading DEVICE_ID incorrectly from the reset value.
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* CN23XX exits FLR at any point between 66 and 99ms, so U-Boot has to wait
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* 99ms to let hardware finish its part, then finish reprogramming the
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* correct device ID before the end of 100ms.
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*
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* Note: this solution only works properly when there is no other activity
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* within U-Boot for 100ms from the time FLR is triggered.
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*
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* This function gets called every 100usec. If FLR happens during any
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* other activity like bootloader/image update then it is possible that
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* this function does not get called for more than the FLR period which will
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* cause the PF device ID restore to happen after whoever initiated the FLR to
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* read the incorrect device ID 0x9700 (reset value) instead of 0x9702
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* (restored value).
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*/
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static void octeon_board_restore_pf(void *ctx)
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{
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union cvmx_spemx_flr_pf_stopreq stopreq;
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static bool start_initialized[2] = {false, false};
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bool pf0_flag, pf1_flag;
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u64 ltssm_bits;
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const u64 pf_flr_wait_usecs = 99700;
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u64 elapsed_usecs;
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union cvmx_spemx_cfg_wr cfg_wr;
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union cvmx_spemx_cfg_rd cfg_rd;
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static u64 start_us[2];
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int pf_num;
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csr_wr(CVMX_DTX_SPEM_SELX(0), DTX_SELECT_LTSSM);
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csr_rd(CVMX_DTX_SPEM_SELX(0));
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csr_wr(CVMX_DTX_SPEM_ENAX(0), DTX_SELECT_LTSSM_ENA);
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csr_rd(CVMX_DTX_SPEM_ENAX(0));
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ltssm_bits = csr_rd(CVMX_DTX_SPEM_DATX(0));
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if (((ltssm_bits >> 3) & 0x3f) != LTSSM_L0)
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return;
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stopreq.u64 = csr_rd(CVMX_SPEMX_FLR_PF_STOPREQ(0));
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pf0_flag = stopreq.s.pf0_stopreq;
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pf1_flag = stopreq.s.pf1_stopreq;
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/* See if PF interrupt happened */
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if (!(pf0_flag || pf1_flag))
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return;
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if (pf0_flag && !start_initialized[0]) {
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start_initialized[0] = true;
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start_us[0] = get_timer_us(0);
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}
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/* Store programmed PCIe DevID SPEM0 PF0 */
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if (pf0_flag && !pci_cfgspace_reg0[0]) {
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cfg_rd.s.addr = (0 << 24) | 0x0;
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csr_wr(CVMX_SPEMX_CFG_RD(0), cfg_rd.u64);
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cfg_rd.u64 = csr_rd(CVMX_SPEMX_CFG_RD(0));
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pci_cfgspace_reg0[0] = cfg_rd.s.data;
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}
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if (pf1_flag && !start_initialized[1]) {
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start_initialized[1] = true;
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start_us[1] = get_timer_us(0);
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}
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/* Store programmed PCIe DevID SPEM0 PF1 */
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if (pf1_flag && !pci_cfgspace_reg0[1]) {
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cfg_rd.s.addr = (1 << 24) | 0x0;
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csr_wr(CVMX_SPEMX_CFG_RD(0), cfg_rd.u64);
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cfg_rd.u64 = csr_rd(CVMX_SPEMX_CFG_RD(0));
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pci_cfgspace_reg0[1] = cfg_rd.s.data;
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}
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/* For PF, rewrite pci config space reg 0 */
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for (pf_num = 0; pf_num < 2; pf_num++) {
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if (!start_initialized[pf_num])
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continue;
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elapsed_usecs = get_timer_us(0) - start_us[pf_num];
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if (elapsed_usecs > pf_flr_wait_usecs) {
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/* Here, our measured FLR duration has passed;
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* check if device ID has been reset,
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* which indicates FLR completion (per MA team).
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*/
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cfg_rd.s.addr = (pf_num << 24) | 0x0;
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csr_wr(CVMX_SPEMX_CFG_RD(0), cfg_rd.u64);
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cfg_rd.u64 = csr_rd(CVMX_SPEMX_CFG_RD(0));
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/* if DevID has NOT been reset, FLR is not yet
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* complete
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*/
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if (cfg_rd.s.data != pci_cfgspace_reg0[pf_num]) {
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stopreq.s.pf0_stopreq = (pf_num == 0) ? 1 : 0;
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stopreq.s.pf1_stopreq = (pf_num == 1) ? 1 : 0;
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csr_wr(CVMX_SPEMX_FLR_PF_STOPREQ(0), stopreq.u64);
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cfg_wr.u64 = 0;
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cfg_wr.s.addr = (pf_num << 24) | 0;
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cfg_wr.s.data = pci_cfgspace_reg0[pf_num];
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csr_wr(CVMX_SPEMX_CFG_WR(0), cfg_wr.u64);
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start_initialized[pf_num] = false;
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}
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}
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}
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}
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int board_late_init(void)
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{
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struct cyclic_info *cyclic;
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struct gpio_desc gpio = {};
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ofnode node;
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/* Turn on SFP+ transmitters */
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ofnode_for_each_compatible_node(node, "ethernet,sfp-slot") {
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gpio_request_by_name_nodev(node, "tx_disable", 0,
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&gpio, GPIOD_IS_OUT);
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if (dm_gpio_is_valid(&gpio)) {
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debug("%s: Setting GPIO %d to 0\n", __func__,
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gpio.offset);
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dm_gpio_set_value(&gpio, 0);
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}
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dm_gpio_free(gpio.dev, &gpio);
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}
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board_configure_qlms();
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/* Register cyclic function for PCIe FLR fixup */
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cyclic = cyclic_register(octeon_board_restore_pf, 100,
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"pcie_flr_fix", NULL);
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if (!cyclic)
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printf("Registering of cyclic function failed\n");
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return 0;
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}
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int last_stage_init(void)
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{
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struct gpio_desc gpio = {};
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ofnode node;
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node = ofnode_by_compatible(ofnode_null(), "vitesse,vsc7224");
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if (!ofnode_valid(node)) {
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printf("Vitesse SPF DT node not found!");
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return 0;
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}
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gpio_request_by_name_nodev(node, "reset", 0, &gpio, GPIOD_IS_OUT);
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if (dm_gpio_is_valid(&gpio)) {
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/* Take Vitesse retimer out of reset */
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debug("%s: Setting GPIO 7 to 0\n", __func__);
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dm_gpio_set_value(&gpio, 0);
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mdelay(50);
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}
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dm_gpio_free(gpio.dev, &gpio);
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return 0;
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}
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