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📁 ..
📄 cvmip.h(5.88 KB)
📄 cvmx-abi.h(3.67 KB)
📄 cvmx-access-native.h(26.79 KB)
📄 cvmx-access.h(7.82 KB)
📄 cvmx-address.h(10.26 KB)
📄 cvmx-agl-defs.h(213.66 KB)
📄 cvmx-app-hotplug.c(27.64 KB)
📄 cvmx-app-hotplug.h(5.77 KB)
📄 cvmx-app-init-linux.c(14.29 KB)
📄 cvmx-app-init.c(22.54 KB)
📄 cvmx-app-init.h(19.32 KB)
📄 cvmx-asm.h(39.3 KB)
📄 cvmx-asx0-defs.h(5.19 KB)
📄 cvmx-asxx-defs.h(50.57 KB)
📄 cvmx-atomic.h(21.71 KB)
📄 cvmx-bootloader.h(5.64 KB)
📄 cvmx-bootmem.c(40.91 KB)
📄 cvmx-bootmem.h(18.88 KB)
📄 cvmx-ciu-defs.h(702.5 KB)
📄 cvmx-ciu2-defs.h(487.31 KB)
📄 cvmx-clock.c(4.48 KB)
📄 cvmx-clock.h(4.43 KB)
📄 cvmx-cmd-queue.c(11.84 KB)
📄 cvmx-cmd-queue.h(22 KB)
📄 cvmx-cn3010-evb-hs5.c(6.05 KB)
📄 cvmx-cn3010-evb-hs5.h(2.3 KB)
📄 cvmx-compactflash.c(12.8 KB)
📄 cvmx-compactflash.h(3.05 KB)
📄 cvmx-core.c(5.3 KB)
📄 cvmx-core.h(9.46 KB)
📄 cvmx-coremask.c(4.12 KB)
📄 cvmx-coremask.h(8.11 KB)
📄 cvmx-crypto.c(2.6 KB)
📄 cvmx-crypto.h(2.54 KB)
📄 cvmx-csr-enums.h(8.45 KB)
📄 cvmx-csr-typedefs.h(3.92 KB)
📄 cvmx-csr.h(11.46 KB)
📄 cvmx-dbg-defs.h(6.28 KB)
📄 cvmx-debug-handler.S(7.44 KB)
📄 cvmx-debug-remote.c(3.24 KB)
📄 cvmx-debug-uart.c(7.88 KB)
📄 cvmx-debug.c(55.98 KB)
📄 cvmx-debug.h(22.2 KB)
📄 cvmx-dfa-defs.h(383.08 KB)
📄 cvmx-dfa.c(3.7 KB)
📄 cvmx-dfa.h(34.87 KB)
📄 cvmx-dfm-defs.h(205.93 KB)
📄 cvmx-dma-engine.c(20.25 KB)
📄 cvmx-dma-engine.h(24.06 KB)
📄 cvmx-dpi-defs.h(107.61 KB)
📄 cvmx-ebt3000.c(3.82 KB)
📄 cvmx-ebt3000.h(2.25 KB)
📄 cvmx-endor-defs.h(311.42 KB)
📄 cvmx-eoi-defs.h(26.27 KB)
📄 cvmx-fau.h(20.31 KB)
📄 cvmx-flash.c(22.46 KB)
📄 cvmx-flash.h(3.8 KB)
📄 cvmx-fpa-defs.h(157.78 KB)
📄 cvmx-fpa.c(6.63 KB)
📄 cvmx-fpa.h(10.39 KB)
📄 cvmx-gmx.h(3.07 KB)
📄 cvmx-gmxx-defs.h(505.27 KB)
📄 cvmx-gpio-defs.h(36.89 KB)
📄 cvmx-gpio.h(5.48 KB)
📄 cvmx-helper-board.c(58 KB)
📄 cvmx-helper-board.h(7.82 KB)
📄 cvmx-helper-cfg.c(18.68 KB)
📄 cvmx-helper-cfg.h(8.1 KB)
📄 cvmx-helper-check-defines.h(4.1 KB)
📄 cvmx-helper-errata.c(11.91 KB)
📄 cvmx-helper-errata.h(3.24 KB)
📄 cvmx-helper-fpa.c(8.81 KB)
📄 cvmx-helper-fpa.h(3.21 KB)
📄 cvmx-helper-ilk.c(12.74 KB)
📄 cvmx-helper-ilk.h(3.58 KB)
📄 cvmx-helper-jtag.c(7.05 KB)
📄 cvmx-helper-jtag.h(3.91 KB)
📄 cvmx-helper-loop.c(4.35 KB)
📄 cvmx-helper-loop.h(2.78 KB)
📄 cvmx-helper-npi.c(5.72 KB)
📄 cvmx-helper-npi.h(2.82 KB)
📄 cvmx-helper-rgmii.c(19.12 KB)
📄 cvmx-helper-rgmii.h(4.5 KB)
📄 cvmx-helper-sgmii.c(27.09 KB)
📄 cvmx-helper-sgmii.h(4.3 KB)
📄 cvmx-helper-spi.c(8.4 KB)
📄 cvmx-helper-spi.h(3.68 KB)
📄 cvmx-helper-srio.c(11.58 KB)
📄 cvmx-helper-srio.h(3.6 KB)
📄 cvmx-helper-util.c(25.77 KB)
📄 cvmx-helper-util.h(9.88 KB)
📄 cvmx-helper-xaui.c(16.54 KB)
📄 cvmx-helper-xaui.h(4.29 KB)
📄 cvmx-helper.c(69.71 KB)
📄 cvmx-helper.h(12.7 KB)
📄 cvmx-hfa.c(5.04 KB)
📄 cvmx-hfa.h(10.3 KB)
📄 cvmx-higig.h(23.21 KB)
📄 cvmx-ilk-defs.h(170.31 KB)
📄 cvmx-ilk.c(45.16 KB)
📄 cvmx-ilk.h(5.89 KB)
📄 cvmx-interrupt-handler.S(5.87 KB)
📄 cvmx-interrupt.c(47.42 KB)
📄 cvmx-interrupt.h(8.07 KB)
📄 cvmx-iob-defs.h(89.11 KB)
📄 cvmx-iob1-defs.h(6.8 KB)
📄 cvmx-ipd-defs.h(186.51 KB)
📄 cvmx-ipd.c(12.88 KB)
📄 cvmx-ipd.h(6.3 KB)
📄 cvmx-ixf18201.c(12.8 KB)
📄 cvmx-ixf18201.h(3.54 KB)
📄 cvmx-key-defs.h(11 KB)
📄 cvmx-key.h(3.29 KB)
📄 cvmx-l2c-defs.h(353.27 KB)
📄 cvmx-l2c.c(52.95 KB)
📄 cvmx-l2c.h(19.72 KB)
📄 cvmx-l2d-defs.h(60.71 KB)
📄 cvmx-l2t-defs.h(50.68 KB)
📄 cvmx-led-defs.h(22.68 KB)
📄 cvmx-llm.c(36.51 KB)
📄 cvmx-llm.h(11.72 KB)
📄 cvmx-lmcx-defs.h(532.21 KB)
📄 cvmx-log-arc.S(5.67 KB)
📄 cvmx-log.c(18.26 KB)
📄 cvmx-log.h(4.95 KB)
📁 cvmx-malloc
📄 cvmx-malloc.h(7.2 KB)
📄 cvmx-mdio.h(15.99 KB)
📄 cvmx-mgmt-port.c(36.2 KB)
📄 cvmx-mgmt-port.h(7.23 KB)
📄 cvmx-mio-defs.h(454.14 KB)
📄 cvmx-mixx-defs.h(94.59 KB)
📄 cvmx-mpi-defs.h(33.42 KB)
📄 cvmx-nand.c(76.64 KB)
📄 cvmx-nand.h(26.85 KB)
📄 cvmx-ndf-defs.h(25.53 KB)
📄 cvmx-npei-defs.h(378.19 KB)
📄 cvmx-npi-defs.h(252.36 KB)
📄 cvmx-npi.h(4.69 KB)
📄 cvmx-packet.h(2.94 KB)
📄 cvmx-pci-defs.h(250.53 KB)
📄 cvmx-pci.h(2.37 KB)
📄 cvmx-pcie.c(63 KB)
📄 cvmx-pcie.h(10.08 KB)
📄 cvmx-pcieepx-defs.h(304.49 KB)
📄 cvmx-pciercx-defs.h(284.89 KB)
📄 cvmx-pcm-defs.h(12.34 KB)
📄 cvmx-pcmx-defs.h(46.12 KB)
📄 cvmx-pcsx-defs.h(71.23 KB)
📄 cvmx-pcsxx-defs.h(45.79 KB)
📄 cvmx-pemx-defs.h(68.97 KB)
📄 cvmx-pescx-defs.h(49.92 KB)
📄 cvmx-pexp-defs.h(97.89 KB)
📄 cvmx-pip-defs.h(315.91 KB)
📄 cvmx-pip.h(33.65 KB)
📄 cvmx-pko-defs.h(181.41 KB)
📄 cvmx-pko.c(32 KB)
📄 cvmx-pko.h(31.29 KB)
📄 cvmx-platform.h(7.45 KB)
📄 cvmx-pow-defs.h(93.02 KB)
📄 cvmx-pow.c(32.26 KB)
📄 cvmx-pow.h(100.93 KB)
📄 cvmx-power-throttle.c(7.25 KB)
📄 cvmx-power-throttle.h(3.85 KB)
📄 cvmx-profiler.c(7.81 KB)
📄 cvmx-profiler.h(3.15 KB)
📄 cvmx-qlm-tables.c(35.37 KB)
📄 cvmx-qlm.c(23.41 KB)
📄 cvmx-qlm.h(4.76 KB)
📄 cvmx-rad-defs.h(43.58 KB)
📄 cvmx-raid.c(4.71 KB)
📄 cvmx-raid.h(13.02 KB)
📄 cvmx-resources.config(7.66 KB)
📄 cvmx-rng.h(5.02 KB)
📄 cvmx-rnm-defs.h(13.03 KB)
📄 cvmx-rtc.h(4.21 KB)
📄 cvmx-rwlock.h(5.25 KB)
📄 cvmx-scratch.h(4.76 KB)
📄 cvmx-shared-linux-n32.ld(11.8 KB)
📄 cvmx-shared-linux-o32.ld(10.67 KB)
📄 cvmx-shared-linux.ld(11.77 KB)
📄 cvmx-shmem.c(18.89 KB)
📄 cvmx-shmem.h(4.11 KB)
📄 cvmx-sim-magic.h(5.59 KB)
📄 cvmx-sli-defs.h(312.94 KB)
📄 cvmx-smi-defs.h(4.09 KB)
📄 cvmx-smix-defs.h(21.71 KB)
📄 cvmx-spi.c(24.99 KB)
📄 cvmx-spi.h(10.22 KB)
📄 cvmx-spi4000.c(19.23 KB)
📄 cvmx-spinlock.h(11.73 KB)
📄 cvmx-spx0-defs.h(3.94 KB)
📄 cvmx-spxx-defs.h(62.44 KB)
📄 cvmx-srio.c(63.05 KB)
📄 cvmx-srio.h(26.68 KB)
📄 cvmx-sriomaintx-defs.h(222.52 KB)
📄 cvmx-sriox-defs.h(211.56 KB)
📄 cvmx-srxx-defs.h(14.41 KB)
📄 cvmx-sso-defs.h(87.33 KB)
📄 cvmx-stxx-defs.h(34.02 KB)
📄 cvmx-swap.h(4.11 KB)
📄 cvmx-sysinfo.c(8.78 KB)
📄 cvmx-sysinfo.h(6.45 KB)
📄 cvmx-thunder.c(9.22 KB)
📄 cvmx-thunder.h(4.54 KB)
📄 cvmx-tim-defs.h(58.36 KB)
📄 cvmx-tim.c(10.92 KB)
📄 cvmx-tim.h(12.1 KB)
📄 cvmx-tlb.c(10.12 KB)
📄 cvmx-tlb.h(5.07 KB)
📄 cvmx-tra-defs.h(4.59 KB)
📄 cvmx-tra.c(31.16 KB)
📄 cvmx-tra.h(34.28 KB)
📄 cvmx-trax-defs.h(197.09 KB)
📄 cvmx-twsi.c(16.25 KB)
📄 cvmx-twsi.h(10.22 KB)
📄 cvmx-uahcx-defs.h(181.38 KB)
📄 cvmx-uart.c(5.69 KB)
📄 cvmx-uart.h(4.58 KB)
📄 cvmx-uctlx-defs.h(50.26 KB)
📄 cvmx-usb.c(138.53 KB)
📄 cvmx-usb.h(46.67 KB)
📄 cvmx-usbcx-defs.h(259.23 KB)
📄 cvmx-usbd.c(36.09 KB)
📄 cvmx-usbd.h(9.82 KB)
📄 cvmx-usbnx-defs.h(136.12 KB)
📄 cvmx-utils.h(7.54 KB)
📄 cvmx-version.h(2.23 KB)
📄 cvmx-warn.c(2.75 KB)
📄 cvmx-warn.h(2.43 KB)
📄 cvmx-wqe.h(38.61 KB)
📄 cvmx-zip-defs.h(43.18 KB)
📄 cvmx-zip.c(7.37 KB)
📄 cvmx-zip.h(8.5 KB)
📄 cvmx-zone.c(4.7 KB)
📄 cvmx.h(3.5 KB)
📄 octeon-boot-info.h(8.08 KB)
📄 octeon-feature.c(4.71 KB)
📄 octeon-feature.h(11.94 KB)
📄 octeon-model.c(15.79 KB)
📄 octeon-model.h(16.53 KB)
📄 octeon-pci-console.c(19.73 KB)
📄 octeon-pci-console.h(5.18 KB)

Editing: cvmx-spi.c

/***********************license start***************
 * Copyright (c) 2003-2010  Cavium Inc. (support@cavium.com). All rights
 * reserved.
 *
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are
 * met:
 *
 *   * Redistributions of source code must retain the above copyright
 *     notice, this list of conditions and the following disclaimer.
 *
 *   * Redistributions in binary form must reproduce the above
 *     copyright notice, this list of conditions and the following
 *     disclaimer in the documentation and/or other materials provided
 *     with the distribution.

*   * Neither the name of Cavium Inc. nor the names of
 *     its contributors may be used to endorse or promote products
 *     derived from this software without specific prior written
 *     permission.

* This Software, including technical data, may be subject to U.S. export  control
 * laws, including the U.S. Export Administration Act and its  associated
 * regulations, and may be subject to export or import  regulations in other
 * countries.

* TO THE MAXIMUM EXTENT PERMITTED BY LAW, THE SOFTWARE IS PROVIDED "AS IS"
 * AND WITH ALL FAULTS AND CAVIUM INC. MAKES NO PROMISES, REPRESENTATIONS OR
 * WARRANTIES, EITHER EXPRESS, IMPLIED, STATUTORY, OR OTHERWISE, WITH RESPECT TO
 * THE SOFTWARE, INCLUDING ITS CONDITION, ITS CONFORMITY TO ANY REPRESENTATION OR
 * DESCRIPTION, OR THE EXISTENCE OF ANY LATENT OR PATENT DEFECTS, AND CAVIUM
 * SPECIFICALLY DISCLAIMS ALL IMPLIED (IF ANY) WARRANTIES OF TITLE,
 * MERCHANTABILITY, NONINFRINGEMENT, FITNESS FOR A PARTICULAR PURPOSE, LACK OF
 * VIRUSES, ACCURACY OR COMPLETENESS, QUIET ENJOYMENT, QUIET POSSESSION OR
 * CORRESPONDENCE TO DESCRIPTION. THE ENTIRE  RISK ARISING OUT OF USE OR
 * PERFORMANCE OF THE SOFTWARE LIES WITH YOU.
 ***********************license end**************************************/

/**
 * @file
 *
 * Support library for the SPI
 *
 * <hr>$Revision: 70030 $<hr>
 */
#ifdef CVMX_BUILD_FOR_LINUX_KERNEL
#include <linux/module.h>
#include <asm/octeon/cvmx.h>
#include <asm/octeon/cvmx-config.h>
#include <asm/octeon/cvmx-spxx-defs.h>
#include <asm/octeon/cvmx-stxx-defs.h>
#include <asm/octeon/cvmx-srxx-defs.h>
#include <asm/octeon/cvmx-pko.h>
#include <asm/octeon/cvmx-spi.h>
#include <asm/octeon/cvmx-clock.h>
#else
#include "cvmx.h"
#if !defined(__FreeBSD__) || !defined(_KERNEL)
#include "cvmx-config.h"
#endif
#include "cvmx-sysinfo.h"
#include "cvmx-pko.h"
#include "cvmx-spi.h"
#include "cvmx-clock.h"
#endif

#define INVOKE_CB(function_p, args...) \
        do { \
            if (function_p) { \
                res = function_p(args); \
                if (res) \
                    return res; \
            } \
        } while (0)

#if CVMX_ENABLE_DEBUG_PRINTS
static const char *modes[] = {"UNKNOWN", "TX Halfplex", "Rx Halfplex", "Duplex"};
#endif

/* Default callbacks, can be overridden
 *  using cvmx_spi_get_callbacks/cvmx_spi_set_callbacks
 */
static cvmx_spi_callbacks_t cvmx_spi_callbacks = {
  .reset_cb            = cvmx_spi_reset_cb,
  .calendar_setup_cb   = cvmx_spi_calendar_setup_cb,
  .clock_detect_cb     = cvmx_spi_clock_detect_cb,
  .training_cb         = cvmx_spi_training_cb,
  .calendar_sync_cb    = cvmx_spi_calendar_sync_cb,
  .interface_up_cb     = cvmx_spi_interface_up_cb
};

/**
 * Get current SPI4 initialization callbacks
 *
 * @param callbacks  Pointer to the callbacks structure.to fill
 *
 * @return Pointer to cvmx_spi_callbacks_t structure.
 */
void cvmx_spi_get_callbacks(cvmx_spi_callbacks_t * callbacks)
{
    memcpy(callbacks, &cvmx_spi_callbacks, sizeof(cvmx_spi_callbacks));
}

/**
 * Set new SPI4 initialization callbacks
 *
 * @param new_callbacks  Pointer to an updated callbacks structure.
 */
void cvmx_spi_set_callbacks(cvmx_spi_callbacks_t * new_callbacks)
{
    memcpy(&cvmx_spi_callbacks, new_callbacks, sizeof(cvmx_spi_callbacks));
}

/**
 * Initialize and start the SPI interface.
 *
 * @param interface The identifier of the packet interface to configure and
 *                  use as a SPI interface.
 * @param mode      The operating mode for the SPI interface. The interface
 *                  can operate as a full duplex (both Tx and Rx data paths
 *                  active) or as a halfplex (either the Tx data path is
 *                  active or the Rx data path is active, but not both).
 * @param timeout   Timeout to wait for clock synchronization in seconds
 * @param num_ports Number of SPI ports to configure
 *
 * @return Zero on success, negative of failure.
 */
int cvmx_spi_start_interface(int interface, cvmx_spi_mode_t mode, int timeout, int num_ports)
{
    int res = -1;

if (!(OCTEON_IS_MODEL(OCTEON_CN38XX) || OCTEON_IS_MODEL(OCTEON_CN58XX)))
        return res;

// Callback to perform SPI4 reset
    INVOKE_CB( cvmx_spi_callbacks.reset_cb, interface, mode);

// Callback to perform calendar setup
    INVOKE_CB(cvmx_spi_callbacks.calendar_setup_cb, interface, mode, num_ports);

// Callback to perform clock detection
    INVOKE_CB(cvmx_spi_callbacks.clock_detect_cb, interface, mode, timeout);

// Callback to perform SPI4 link training
    INVOKE_CB(cvmx_spi_callbacks.training_cb, interface, mode, timeout);

// Callback to perform calendar sync
    INVOKE_CB(cvmx_spi_callbacks.calendar_sync_cb, interface, mode, timeout);

// Callback to handle interface coming up
    INVOKE_CB(cvmx_spi_callbacks.interface_up_cb, interface, mode);

return res;
}

/**
 * This routine restarts the SPI interface after it has lost synchronization
 * with its correspondent system.
 *
 * @param interface The identifier of the packet interface to configure and
 *                  use as a SPI interface.
 * @param mode      The operating mode for the SPI interface. The interface
 *                  can operate as a full duplex (both Tx and Rx data paths
 *                  active) or as a halfplex (either the Tx data path is
 *                  active or the Rx data path is active, but not both).
 * @param timeout   Timeout to wait for clock synchronization in seconds
 * @return Zero on success, negative of failure.
 */
int cvmx_spi_restart_interface(int interface, cvmx_spi_mode_t mode, int timeout)
{
    int res = -1;

if (!(OCTEON_IS_MODEL(OCTEON_CN38XX) || OCTEON_IS_MODEL(OCTEON_CN58XX)))
        return res;

cvmx_dprintf ("SPI%d: Restart %s\n", interface, modes[mode]);

// Callback to perform SPI4 reset
    INVOKE_CB(cvmx_spi_callbacks.reset_cb, interface,mode);

// NOTE: Calendar setup is not performed during restart
    //       Refer to cvmx_spi_start_interface() for the full sequence

// Callback to perform clock detection
    INVOKE_CB(cvmx_spi_callbacks.clock_detect_cb, interface, mode, timeout);

// Callback to perform SPI4 link training
    INVOKE_CB(cvmx_spi_callbacks.training_cb, interface, mode, timeout);

// Callback to perform calendar sync
    INVOKE_CB(cvmx_spi_callbacks.calendar_sync_cb, interface, mode, timeout);

// Callback to handle interface coming up
    INVOKE_CB(cvmx_spi_callbacks.interface_up_cb, interface, mode);

return res;
}
#ifdef CVMX_BUILD_FOR_LINUX_KERNEL
EXPORT_SYMBOL(cvmx_spi_restart_interface);
#endif

/**
 * Callback to perform SPI4 reset
 *
 * @param interface The identifier of the packet interface to configure and
 *                  use as a SPI interface.
 * @param mode      The operating mode for the SPI interface. The interface
 *                  can operate as a full duplex (both Tx and Rx data paths
 *                  active) or as a halfplex (either the Tx data path is
 *                  active or the Rx data path is active, but not both).
 * @return Zero on success, non-zero error code on failure (will cause SPI initialization to abort)
 */
int cvmx_spi_reset_cb(int interface, cvmx_spi_mode_t mode)
{
    cvmx_spxx_dbg_deskew_ctl_t spxx_dbg_deskew_ctl;
    cvmx_spxx_clk_ctl_t spxx_clk_ctl;
    cvmx_spxx_bist_stat_t spxx_bist_stat;
    cvmx_spxx_int_msk_t spxx_int_msk;
    cvmx_stxx_int_msk_t stxx_int_msk;
    cvmx_spxx_trn4_ctl_t spxx_trn4_ctl;
    int index;
    uint64_t MS = cvmx_clock_get_rate(CVMX_CLOCK_CORE) / 1000;

/* Disable SPI error events while we run BIST */
    spxx_int_msk.u64 = cvmx_read_csr(CVMX_SPXX_INT_MSK(interface));
    cvmx_write_csr(CVMX_SPXX_INT_MSK(interface), 0);
    stxx_int_msk.u64 = cvmx_read_csr(CVMX_STXX_INT_MSK(interface));
    cvmx_write_csr(CVMX_STXX_INT_MSK(interface), 0);

/* Run BIST in the SPI interface */
    cvmx_write_csr(CVMX_SRXX_COM_CTL(interface), 0);
    cvmx_write_csr(CVMX_STXX_COM_CTL(interface), 0);
    spxx_clk_ctl.u64 = 0;
    spxx_clk_ctl.s.runbist = 1;
    cvmx_write_csr(CVMX_SPXX_CLK_CTL(interface), spxx_clk_ctl.u64);
    cvmx_wait (10 * MS);
    spxx_bist_stat.u64 = cvmx_read_csr(CVMX_SPXX_BIST_STAT(interface));
    if (spxx_bist_stat.s.stat0)
        cvmx_dprintf("ERROR SPI%d: BIST failed on receive datapath FIFO\n", interface);
    if (spxx_bist_stat.s.stat1)
        cvmx_dprintf("ERROR SPI%d: BIST failed on RX calendar table\n", interface);
    if (spxx_bist_stat.s.stat2)
        cvmx_dprintf("ERROR SPI%d: BIST failed on TX calendar table\n", interface);

/* Clear the calendar table after BIST to fix parity errors */
    for (index=0; index<32; index++)
    {
        cvmx_srxx_spi4_calx_t srxx_spi4_calx;
        cvmx_stxx_spi4_calx_t stxx_spi4_calx;

srxx_spi4_calx.u64 = 0;
        srxx_spi4_calx.s.oddpar = 1;
        cvmx_write_csr(CVMX_SRXX_SPI4_CALX(index, interface), srxx_spi4_calx.u64);

stxx_spi4_calx.u64 = 0;
        stxx_spi4_calx.s.oddpar = 1;
        cvmx_write_csr(CVMX_STXX_SPI4_CALX(index, interface), stxx_spi4_calx.u64);
    }

/* Re enable reporting of error interrupts */
    cvmx_write_csr(CVMX_SPXX_INT_REG(interface), cvmx_read_csr(CVMX_SPXX_INT_REG(interface)));
    cvmx_write_csr(CVMX_SPXX_INT_MSK(interface), spxx_int_msk.u64);
    cvmx_write_csr(CVMX_STXX_INT_REG(interface), cvmx_read_csr(CVMX_STXX_INT_REG(interface)));
    cvmx_write_csr(CVMX_STXX_INT_MSK(interface), stxx_int_msk.u64);

// Setup the CLKDLY right in the middle
    spxx_clk_ctl.u64 = 0;
    spxx_clk_ctl.s.seetrn = 0;
    spxx_clk_ctl.s.clkdly = 0x10;
    spxx_clk_ctl.s.runbist = 0;
    spxx_clk_ctl.s.statdrv = 0;
    spxx_clk_ctl.s.statrcv = 1; /* This should always be on the opposite edge as statdrv */
    spxx_clk_ctl.s.sndtrn = 0;
    spxx_clk_ctl.s.drptrn = 0;
    spxx_clk_ctl.s.rcvtrn = 0;
    spxx_clk_ctl.s.srxdlck = 0;
    cvmx_write_csr(CVMX_SPXX_CLK_CTL(interface), spxx_clk_ctl.u64);
    cvmx_wait (100 * MS);

// Reset SRX0 DLL
    spxx_clk_ctl.s.srxdlck = 1;
    cvmx_write_csr(CVMX_SPXX_CLK_CTL(interface), spxx_clk_ctl.u64);

// Waiting for Inf0 Spi4 RX DLL to lock
    cvmx_wait (100 * MS);

// Enable dynamic alignment
    spxx_trn4_ctl.s.trntest = 0;
    spxx_trn4_ctl.s.jitter = 1;
    spxx_trn4_ctl.s.clr_boot = 1;
    spxx_trn4_ctl.s.set_boot = 0;
    if (OCTEON_IS_MODEL(OCTEON_CN58XX))
        spxx_trn4_ctl.s.maxdist = 3;
    else
        spxx_trn4_ctl.s.maxdist = 8;
    spxx_trn4_ctl.s.macro_en = 1;
    spxx_trn4_ctl.s.mux_en = 1;
    cvmx_write_csr (CVMX_SPXX_TRN4_CTL(interface), spxx_trn4_ctl.u64);

spxx_dbg_deskew_ctl.u64 = 0;
    cvmx_write_csr (CVMX_SPXX_DBG_DESKEW_CTL(interface), spxx_dbg_deskew_ctl.u64);

return 0;
}

/**
 * Callback to setup calendar and miscellaneous settings before clock detection
 *
 * @param interface The identifier of the packet interface to configure and
 *                  use as a SPI interface.
 * @param mode      The operating mode for the SPI interface. The interface
 *                  can operate as a full duplex (both Tx and Rx data paths
 *                  active) or as a halfplex (either the Tx data path is
 *                  active or the Rx data path is active, but not both).
 * @param num_ports Number of ports to configure on SPI
 * @return Zero on success, non-zero error code on failure (will cause SPI initialization to abort)
 */
int cvmx_spi_calendar_setup_cb(int interface, cvmx_spi_mode_t mode, int num_ports)
{
    int port;
    int index;
    if (mode & CVMX_SPI_MODE_RX_HALFPLEX)
    {
        cvmx_srxx_com_ctl_t srxx_com_ctl;
        cvmx_srxx_spi4_stat_t srxx_spi4_stat;

// SRX0 number of Ports
        srxx_com_ctl.u64 = 0;
        srxx_com_ctl.s.prts = num_ports - 1;
        srxx_com_ctl.s.st_en = 0;
        srxx_com_ctl.s.inf_en = 0;
        cvmx_write_csr(CVMX_SRXX_COM_CTL(interface), srxx_com_ctl.u64);

// SRX0 Calendar Table. This round robbins through all ports
        port = 0;
        index = 0;
        while (port < num_ports)
        {
            cvmx_srxx_spi4_calx_t srxx_spi4_calx;
            srxx_spi4_calx.u64 = 0;
            srxx_spi4_calx.s.prt0 = port++;
            srxx_spi4_calx.s.prt1 = port++;
            srxx_spi4_calx.s.prt2 = port++;
            srxx_spi4_calx.s.prt3 = port++;
            srxx_spi4_calx.s.oddpar = ~(cvmx_dpop(srxx_spi4_calx.u64) & 1);
            cvmx_write_csr(CVMX_SRXX_SPI4_CALX(index, interface), srxx_spi4_calx.u64);
            index++;
        }
        srxx_spi4_stat.u64 = 0;
        srxx_spi4_stat.s.len = num_ports;
        srxx_spi4_stat.s.m = 1;
        cvmx_write_csr(CVMX_SRXX_SPI4_STAT(interface), srxx_spi4_stat.u64);
    }

if (mode & CVMX_SPI_MODE_TX_HALFPLEX)
    {
        cvmx_stxx_arb_ctl_t stxx_arb_ctl;
        cvmx_gmxx_tx_spi_max_t gmxx_tx_spi_max;
        cvmx_gmxx_tx_spi_thresh_t gmxx_tx_spi_thresh;
        cvmx_gmxx_tx_spi_ctl_t gmxx_tx_spi_ctl;
        cvmx_stxx_spi4_stat_t stxx_spi4_stat;
        cvmx_stxx_spi4_dat_t stxx_spi4_dat;

// STX0 Config
        stxx_arb_ctl.u64 = 0;
        stxx_arb_ctl.s.igntpa = 0;
        stxx_arb_ctl.s.mintrn = 0;
        cvmx_write_csr(CVMX_STXX_ARB_CTL(interface), stxx_arb_ctl.u64);

gmxx_tx_spi_max.u64 = 0;
        gmxx_tx_spi_max.s.max1 = 8;
        gmxx_tx_spi_max.s.max2 = 4;
        gmxx_tx_spi_max.s.slice = 0;
        cvmx_write_csr(CVMX_GMXX_TX_SPI_MAX(interface), gmxx_tx_spi_max.u64);

gmxx_tx_spi_thresh.u64 = 0;
        gmxx_tx_spi_thresh.s.thresh = 4;
        cvmx_write_csr(CVMX_GMXX_TX_SPI_THRESH(interface), gmxx_tx_spi_thresh.u64);

gmxx_tx_spi_ctl.u64 = 0;
        gmxx_tx_spi_ctl.s.tpa_clr = 0;
        gmxx_tx_spi_ctl.s.cont_pkt = 0;
        cvmx_write_csr(CVMX_GMXX_TX_SPI_CTL(interface), gmxx_tx_spi_ctl.u64);

// STX0 Training Control
        stxx_spi4_dat.u64 = 0;
        stxx_spi4_dat.s.alpha = 32;    /*Minimum needed by dynamic alignment*/
        stxx_spi4_dat.s.max_t = 0xFFFF;  /*Minimum interval is 0x20*/
        cvmx_write_csr(CVMX_STXX_SPI4_DAT(interface), stxx_spi4_dat.u64);

// STX0 Calendar Table. This round robbins through all ports
        port = 0;
        index = 0;
        while (port < num_ports)
        {
            cvmx_stxx_spi4_calx_t stxx_spi4_calx;
            stxx_spi4_calx.u64 = 0;
            stxx_spi4_calx.s.prt0 = port++;
            stxx_spi4_calx.s.prt1 = port++;
            stxx_spi4_calx.s.prt2 = port++;
            stxx_spi4_calx.s.prt3 = port++;
            stxx_spi4_calx.s.oddpar = ~(cvmx_dpop(stxx_spi4_calx.u64) & 1);
            cvmx_write_csr(CVMX_STXX_SPI4_CALX(index, interface), stxx_spi4_calx.u64);
            index++;
        }
        stxx_spi4_stat.u64 = 0;
        stxx_spi4_stat.s.len = num_ports;
        stxx_spi4_stat.s.m = 1;
        cvmx_write_csr(CVMX_STXX_SPI4_STAT(interface), stxx_spi4_stat.u64);
    }

return 0;
}

/**
 * Callback to perform clock detection
 *
 * @param interface The identifier of the packet interface to configure and
 *                  use as a SPI interface.
 * @param mode      The operating mode for the SPI interface. The interface
 *                  can operate as a full duplex (both Tx and Rx data paths
 *                  active) or as a halfplex (either the Tx data path is
 *                  active or the Rx data path is active, but not both).
 * @param timeout   Timeout to wait for clock synchronization in seconds
 * @return Zero on success, non-zero error code on failure (will cause SPI initialization to abort)
 */
int cvmx_spi_clock_detect_cb(int interface, cvmx_spi_mode_t mode, int timeout)
{
    int                          clock_transitions;
    cvmx_spxx_clk_stat_t         stat;
    uint64_t                     timeout_time;
    uint64_t                     MS = cvmx_clock_get_rate(CVMX_CLOCK_CORE) / 1000;

/* Regardless of operating mode, both Tx and Rx clocks must be present
        for the SPI interface to operate. */
    cvmx_dprintf ("SPI%d: Waiting to see TsClk...\n", interface);
    timeout_time = cvmx_get_cycle() + 1000ull * MS * timeout;
    /* Require 100 clock transitions in order to avoid any noise in the
        beginning  */
    clock_transitions = 100;
    do
    {
        stat.u64 = cvmx_read_csr(CVMX_SPXX_CLK_STAT(interface));
        if (stat.s.s4clk0 && stat.s.s4clk1 && clock_transitions)
        {
            /* We've seen a clock transition, so decrement the number we still
                need */
            clock_transitions--;
            cvmx_write_csr(CVMX_SPXX_CLK_STAT(interface), stat.u64);
            stat.s.s4clk0 = 0;
            stat.s.s4clk1 = 0;
        }
        if (cvmx_get_cycle() > timeout_time)
        {
            cvmx_dprintf ("SPI%d: Timeout\n", interface);
            return -1;
        }
    } while (stat.s.s4clk0 == 0 || stat.s.s4clk1 == 0);

cvmx_dprintf ("SPI%d: Waiting to see RsClk...\n", interface);
    timeout_time = cvmx_get_cycle() + 1000ull * MS * timeout;
    /* Require 100 clock transitions in order to avoid any noise in the
        beginning  */
    clock_transitions = 100;
    do
    {
        stat.u64 = cvmx_read_csr (CVMX_SPXX_CLK_STAT(interface));
        if (stat.s.d4clk0 && stat.s.d4clk1 && clock_transitions)
        {
            /* We've seen a clock transition, so decrement the number we still
                need */
            clock_transitions--;
            cvmx_write_csr(CVMX_SPXX_CLK_STAT(interface), stat.u64);
            stat.s.d4clk0 = 0;
            stat.s.d4clk1 = 0;
        }
        if (cvmx_get_cycle() > timeout_time)
        {
            cvmx_dprintf ("SPI%d: Timeout\n", interface);
            return -1;
        }
    } while (stat.s.d4clk0 == 0 || stat.s.d4clk1 == 0);

return 0;
}

/**
 * Callback to perform link training
 *
 * @param interface The identifier of the packet interface to configure and
 *                  use as a SPI interface.
 * @param mode      The operating mode for the SPI interface. The interface
 *                  can operate as a full duplex (both Tx and Rx data paths
 *                  active) or as a halfplex (either the Tx data path is
 *                  active or the Rx data path is active, but not both).
 * @param timeout   Timeout to wait for link to be trained (in seconds)
 * @return Zero on success, non-zero error code on failure (will cause SPI initialization to abort)
 */
int cvmx_spi_training_cb(int interface, cvmx_spi_mode_t mode, int timeout)
{
    cvmx_spxx_trn4_ctl_t         spxx_trn4_ctl;
    cvmx_spxx_clk_stat_t         stat;
    uint64_t                     MS = cvmx_clock_get_rate(CVMX_CLOCK_CORE) / 1000;
    uint64_t                     timeout_time = cvmx_get_cycle() + 1000ull * MS * timeout;
    int                          rx_training_needed;

// SRX0 & STX0 Inf0 Links are configured - begin training
    cvmx_spxx_clk_ctl_t spxx_clk_ctl;
    spxx_clk_ctl.u64 = 0;
    spxx_clk_ctl.s.seetrn = 0;
    spxx_clk_ctl.s.clkdly = 0x10;
    spxx_clk_ctl.s.runbist = 0;
    spxx_clk_ctl.s.statdrv = 0;
    spxx_clk_ctl.s.statrcv = 1; /* This should always be on the opposite edge as statdrv */
    spxx_clk_ctl.s.sndtrn = 1;
    spxx_clk_ctl.s.drptrn = 1;
    spxx_clk_ctl.s.rcvtrn = 1;
    spxx_clk_ctl.s.srxdlck = 1;
    cvmx_write_csr(CVMX_SPXX_CLK_CTL(interface), spxx_clk_ctl.u64);
    cvmx_wait (1000 * MS);

// SRX0 clear the boot bit
    spxx_trn4_ctl.u64 = cvmx_read_csr(CVMX_SPXX_TRN4_CTL(interface));
    spxx_trn4_ctl.s.clr_boot = 1;
    cvmx_write_csr (CVMX_SPXX_TRN4_CTL(interface), spxx_trn4_ctl.u64);

// Wait for the training sequence to complete
    cvmx_dprintf ("SPI%d: Waiting for training\n", interface);
    cvmx_wait (1000 * MS);
#if !defined(OCTEON_VENDOR_LANNER)
    timeout_time = cvmx_get_cycle() + 1000ull * MS * 600;  /* Wait a really long time here */
#else
    timeout_time = cvmx_get_cycle() + 1000ull * MS * 10;
#endif
    /* The HRM says we must wait for 34 + 16 * MAXDIST training sequences.
        We'll be pessimistic and wait for a lot more */
    rx_training_needed = 500;
    do {
        stat.u64 = cvmx_read_csr (CVMX_SPXX_CLK_STAT(interface));
        if (stat.s.srxtrn && rx_training_needed)
        {
            rx_training_needed--;
            cvmx_write_csr(CVMX_SPXX_CLK_STAT(interface), stat.u64);
            stat.s.srxtrn = 0;
        }
        if (cvmx_get_cycle() > timeout_time)
        {
            cvmx_dprintf ("SPI%d: Timeout\n", interface);
            return -1;
        }
    } while (stat.s.srxtrn == 0);

return 0;
}

/**
 * Callback to perform calendar data synchronization
 *
 * @param interface The identifier of the packet interface to configure and
 *                  use as a SPI interface.
 * @param mode      The operating mode for the SPI interface. The interface
 *                  can operate as a full duplex (both Tx and Rx data paths
 *                  active) or as a halfplex (either the Tx data path is
 *                  active or the Rx data path is active, but not both).
 * @param timeout   Timeout to wait for calendar data in seconds
 * @return Zero on success, non-zero error code on failure (will cause SPI initialization to abort)
 */
int cvmx_spi_calendar_sync_cb(int interface, cvmx_spi_mode_t mode, int timeout)
{
    uint64_t MS = cvmx_clock_get_rate(CVMX_CLOCK_CORE) / 1000;
    if (mode & CVMX_SPI_MODE_RX_HALFPLEX) {
        // SRX0 interface should be good, send calendar data
        cvmx_srxx_com_ctl_t srxx_com_ctl;
        cvmx_dprintf ("SPI%d: Rx is synchronized, start sending calendar data\n", interface);
        srxx_com_ctl.u64 = cvmx_read_csr(CVMX_SRXX_COM_CTL(interface));
        srxx_com_ctl.s.inf_en = 1;
        srxx_com_ctl.s.st_en  = 1;
        cvmx_write_csr (CVMX_SRXX_COM_CTL(interface), srxx_com_ctl.u64);
    }

if (mode & CVMX_SPI_MODE_TX_HALFPLEX) {
        // STX0 has achieved sync
        // The corespondant board should be sending calendar data
        // Enable the STX0 STAT receiver.
        cvmx_spxx_clk_stat_t stat;
        uint64_t timeout_time;
        cvmx_stxx_com_ctl_t stxx_com_ctl;
        stxx_com_ctl.u64 = 0;
        stxx_com_ctl.s.st_en = 1;
        cvmx_write_csr (CVMX_STXX_COM_CTL(interface), stxx_com_ctl.u64);

// Waiting for calendar sync on STX0 STAT
        cvmx_dprintf ("SPI%d: Waiting to sync on STX[%d] STAT\n", interface, interface);
        timeout_time = cvmx_get_cycle() + 1000ull * MS * timeout;
        // SPX0_CLK_STAT - SPX0_CLK_STAT[STXCAL] should be 1 (bit10)
        do {
            stat.u64 = cvmx_read_csr (CVMX_SPXX_CLK_STAT (interface));
            if (cvmx_get_cycle() > timeout_time)
            {
                cvmx_dprintf ("SPI%d: Timeout\n", interface);
                return -1;
            }
        } while (stat.s.stxcal == 0);
    }

return 0;
}

/**
 * Callback to handle interface up
 *
 * @param interface The identifier of the packet interface to configure and
 *                  use as a SPI interface.
 * @param mode      The operating mode for the SPI interface. The interface
 *                  can operate as a full duplex (both Tx and Rx data paths
 *                  active) or as a halfplex (either the Tx data path is
 *                  active or the Rx data path is active, but not both).
 * @return Zero on success, non-zero error code on failure (will cause SPI initialization to abort)
 */
int cvmx_spi_interface_up_cb(int interface, cvmx_spi_mode_t mode)
{
    cvmx_gmxx_rxx_frm_min_t gmxx_rxx_frm_min;
    cvmx_gmxx_rxx_frm_max_t gmxx_rxx_frm_max;
    cvmx_gmxx_rxx_jabber_t gmxx_rxx_jabber;

if (mode & CVMX_SPI_MODE_RX_HALFPLEX) {
        cvmx_srxx_com_ctl_t srxx_com_ctl;
        srxx_com_ctl.u64 = cvmx_read_csr(CVMX_SRXX_COM_CTL(interface));
        srxx_com_ctl.s.inf_en = 1;
        cvmx_write_csr (CVMX_SRXX_COM_CTL(interface), srxx_com_ctl.u64);
        cvmx_dprintf ("SPI%d: Rx is now up\n", interface);
    }

if (mode & CVMX_SPI_MODE_TX_HALFPLEX) {
        cvmx_stxx_com_ctl_t stxx_com_ctl;
        stxx_com_ctl.u64 = cvmx_read_csr(CVMX_STXX_COM_CTL(interface));
        stxx_com_ctl.s.inf_en = 1;
        cvmx_write_csr (CVMX_STXX_COM_CTL(interface), stxx_com_ctl.u64);
        cvmx_dprintf ("SPI%d: Tx is now up\n", interface);
    }

gmxx_rxx_frm_min.u64 = 0;
    gmxx_rxx_frm_min.s.len = 64;
#ifdef OCTEON_VENDOR_RADISYS
    /*
     * Incoming packets on the RSYS4GBE have the FCS stripped.
     */
    if (cvmx_sysinfo_get()->board_type == CVMX_BOARD_TYPE_CUST_RADISYS_RSYS4GBE)
	    gmxx_rxx_frm_min.s.len -= 4;
#endif
    cvmx_write_csr(CVMX_GMXX_RXX_FRM_MIN(0,interface), gmxx_rxx_frm_min.u64);
    gmxx_rxx_frm_max.u64 = 0;
    gmxx_rxx_frm_max.s.len = 64*1024 - 4;
    cvmx_write_csr(CVMX_GMXX_RXX_FRM_MAX(0,interface), gmxx_rxx_frm_max.u64);
    gmxx_rxx_jabber.u64 = 0;
    gmxx_rxx_jabber.s.cnt = 64*1024 - 4;
    cvmx_write_csr(CVMX_GMXX_RXX_JABBER(0,interface), gmxx_rxx_jabber.u64);

return 0;
}

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