a0147be547
Xilinx acquired Solarflare in 2019. Signed-off-by: Andrew Rybchenko <arybchenko@solarflare.com> Acked-by: James Fox <jamesfox@xilinx.com>
312 lines
7.5 KiB
C
312 lines
7.5 KiB
C
/* SPDX-License-Identifier: BSD-3-Clause
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*
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* Copyright(c) 2019-2020 Xilinx, Inc.
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* Copyright(c) 2016-2019 Solarflare Communications Inc.
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*
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* This software was jointly developed between OKTET Labs (under contract
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* for Solarflare) and Solarflare Communications, Inc.
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*/
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#include <rte_cycles.h>
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#include "efx.h"
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#include "efx_mcdi.h"
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#include "efx_regs_mcdi.h"
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#include "sfc.h"
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#include "sfc_log.h"
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#include "sfc_ev.h"
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#define SFC_MCDI_POLL_INTERVAL_MIN_US 10 /* 10us in 1us units */
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#define SFC_MCDI_POLL_INTERVAL_MAX_US (US_PER_S / 10) /* 100ms in 1us units */
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#define SFC_MCDI_WATCHDOG_INTERVAL_US (10 * US_PER_S) /* 10s in 1us units */
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static void
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sfc_mcdi_timeout(struct sfc_adapter *sa)
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{
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sfc_warn(sa, "MC TIMEOUT");
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sfc_panic(sa, "MCDI timeout handling is not implemented\n");
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}
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static inline boolean_t
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sfc_mcdi_proxy_event_available(struct sfc_adapter *sa)
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{
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struct sfc_mcdi *mcdi = &sa->mcdi;
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mcdi->proxy_handle = 0;
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mcdi->proxy_result = ETIMEDOUT;
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sfc_ev_mgmt_qpoll(sa);
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if (mcdi->proxy_result != ETIMEDOUT)
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return B_TRUE;
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return B_FALSE;
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}
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static void
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sfc_mcdi_poll(struct sfc_adapter *sa, boolean_t proxy)
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{
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efx_nic_t *enp;
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unsigned int delay_total;
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unsigned int delay_us;
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boolean_t aborted __rte_unused;
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delay_total = 0;
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delay_us = SFC_MCDI_POLL_INTERVAL_MIN_US;
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enp = sa->nic;
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do {
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boolean_t poll_completed;
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poll_completed = (proxy) ? sfc_mcdi_proxy_event_available(sa) :
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efx_mcdi_request_poll(enp);
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if (poll_completed)
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return;
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if (delay_total > SFC_MCDI_WATCHDOG_INTERVAL_US) {
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if (!proxy) {
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aborted = efx_mcdi_request_abort(enp);
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SFC_ASSERT(aborted);
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sfc_mcdi_timeout(sa);
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}
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return;
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}
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rte_delay_us(delay_us);
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delay_total += delay_us;
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/* Exponentially back off the poll frequency */
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RTE_BUILD_BUG_ON(SFC_MCDI_POLL_INTERVAL_MAX_US > UINT_MAX / 2);
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delay_us *= 2;
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if (delay_us > SFC_MCDI_POLL_INTERVAL_MAX_US)
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delay_us = SFC_MCDI_POLL_INTERVAL_MAX_US;
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} while (1);
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}
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static void
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sfc_mcdi_execute(void *arg, efx_mcdi_req_t *emrp)
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{
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struct sfc_adapter *sa = (struct sfc_adapter *)arg;
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struct sfc_mcdi *mcdi = &sa->mcdi;
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uint32_t proxy_handle;
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rte_spinlock_lock(&mcdi->lock);
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SFC_ASSERT(mcdi->state == SFC_MCDI_INITIALIZED);
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efx_mcdi_request_start(sa->nic, emrp, B_FALSE);
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sfc_mcdi_poll(sa, B_FALSE);
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if (efx_mcdi_get_proxy_handle(sa->nic, emrp, &proxy_handle) == 0) {
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/*
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* Authorization is required for the MCDI request;
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* wait for an MCDI proxy response event to bring
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* a non-zero proxy handle (should be the same as
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* the value obtained above) and operation status
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*/
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sfc_mcdi_poll(sa, B_TRUE);
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if ((mcdi->proxy_handle != 0) &&
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(mcdi->proxy_handle != proxy_handle)) {
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sfc_err(sa, "Unexpected MCDI proxy event");
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emrp->emr_rc = EFAULT;
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} else if (mcdi->proxy_result == 0) {
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/*
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* Authorization succeeded; re-issue the original
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* request and poll for an ordinary MCDI response
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*/
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efx_mcdi_request_start(sa->nic, emrp, B_FALSE);
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sfc_mcdi_poll(sa, B_FALSE);
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} else {
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emrp->emr_rc = mcdi->proxy_result;
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sfc_err(sa, "MCDI proxy authorization failed "
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"(handle=%08x, result=%d)",
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proxy_handle, mcdi->proxy_result);
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}
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}
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rte_spinlock_unlock(&mcdi->lock);
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}
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static void
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sfc_mcdi_ev_cpl(void *arg)
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{
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struct sfc_adapter *sa = (struct sfc_adapter *)arg;
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struct sfc_mcdi *mcdi __rte_unused;
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mcdi = &sa->mcdi;
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SFC_ASSERT(mcdi->state == SFC_MCDI_INITIALIZED);
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/* MCDI is polled, completions are not expected */
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SFC_ASSERT(0);
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}
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static void
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sfc_mcdi_exception(void *arg, efx_mcdi_exception_t eme)
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{
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struct sfc_adapter *sa = (struct sfc_adapter *)arg;
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sfc_warn(sa, "MC %s",
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(eme == EFX_MCDI_EXCEPTION_MC_REBOOT) ? "REBOOT" :
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(eme == EFX_MCDI_EXCEPTION_MC_BADASSERT) ? "BADASSERT" : "UNKNOWN");
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sfc_schedule_restart(sa);
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}
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#define SFC_MCDI_LOG_BUF_SIZE 128
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static size_t
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sfc_mcdi_do_log(const struct sfc_adapter *sa,
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char *buffer, void *data, size_t data_size,
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size_t pfxsize, size_t position)
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{
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uint32_t *words = data;
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/* Space separator plus 2 characters per byte */
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const size_t word_str_space = 1 + 2 * sizeof(*words);
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size_t i;
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for (i = 0; i < data_size; i += sizeof(*words)) {
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if (position + word_str_space >=
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SFC_MCDI_LOG_BUF_SIZE) {
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/* Flush at SFC_MCDI_LOG_BUF_SIZE with backslash
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* at the end which is required by netlogdecode.
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*/
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buffer[position] = '\0';
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sfc_log_mcdi(sa, "%s \\", buffer);
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/* Preserve prefix for the next log message */
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position = pfxsize;
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}
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position += snprintf(buffer + position,
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SFC_MCDI_LOG_BUF_SIZE - position,
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" %08x", *words);
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words++;
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}
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return position;
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}
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static void
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sfc_mcdi_logger(void *arg, efx_log_msg_t type,
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void *header, size_t header_size,
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void *data, size_t data_size)
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{
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struct sfc_adapter *sa = (struct sfc_adapter *)arg;
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char buffer[SFC_MCDI_LOG_BUF_SIZE];
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size_t pfxsize;
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size_t start;
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/*
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* Unlike the other cases, MCDI logging implies more onerous work
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* needed to produce a message. If the dynamic log level prevents
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* the end result from being printed, the CPU time will be wasted.
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*
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* To avoid wasting time, the actual level is examined in advance.
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*/
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if (rte_log_get_level(sa->mcdi.logtype) < (int)SFC_LOG_LEVEL_MCDI)
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return;
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/* The format including prefix added by sfc_log_mcdi() is the format
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* consumed by the Solarflare netlogdecode tool.
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*/
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pfxsize = snprintf(buffer, sizeof(buffer), "MCDI RPC %s:",
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type == EFX_LOG_MCDI_REQUEST ? "REQ" :
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type == EFX_LOG_MCDI_RESPONSE ? "RESP" : "???");
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start = sfc_mcdi_do_log(sa, buffer, header, header_size,
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pfxsize, pfxsize);
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start = sfc_mcdi_do_log(sa, buffer, data, data_size, pfxsize, start);
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if (start != pfxsize) {
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buffer[start] = '\0';
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sfc_log_mcdi(sa, "%s", buffer);
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}
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}
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static void
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sfc_mcdi_ev_proxy_response(void *arg, uint32_t handle, efx_rc_t result)
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{
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struct sfc_adapter *sa = (struct sfc_adapter *)arg;
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struct sfc_mcdi *mcdi = &sa->mcdi;
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mcdi->proxy_handle = handle;
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mcdi->proxy_result = result;
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}
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int
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sfc_mcdi_init(struct sfc_adapter *sa)
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{
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struct sfc_mcdi *mcdi;
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size_t max_msg_size;
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efx_mcdi_transport_t *emtp;
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int rc;
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sfc_log_init(sa, "entry");
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mcdi = &sa->mcdi;
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SFC_ASSERT(mcdi->state == SFC_MCDI_UNINITIALIZED);
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rte_spinlock_init(&mcdi->lock);
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mcdi->state = SFC_MCDI_INITIALIZED;
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max_msg_size = sizeof(uint32_t) + MCDI_CTL_SDU_LEN_MAX_V2;
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rc = sfc_dma_alloc(sa, "mcdi", 0, max_msg_size, sa->socket_id,
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&mcdi->mem);
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if (rc != 0)
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goto fail_dma_alloc;
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mcdi->logtype = sfc_register_logtype(&sa->priv.shared->pci_addr,
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SFC_LOGTYPE_MCDI_STR,
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RTE_LOG_NOTICE);
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emtp = &mcdi->transport;
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emtp->emt_context = sa;
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emtp->emt_dma_mem = &mcdi->mem;
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emtp->emt_execute = sfc_mcdi_execute;
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emtp->emt_ev_cpl = sfc_mcdi_ev_cpl;
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emtp->emt_exception = sfc_mcdi_exception;
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emtp->emt_logger = sfc_mcdi_logger;
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emtp->emt_ev_proxy_response = sfc_mcdi_ev_proxy_response;
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sfc_log_init(sa, "init MCDI");
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rc = efx_mcdi_init(sa->nic, emtp);
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if (rc != 0)
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goto fail_mcdi_init;
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return 0;
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fail_mcdi_init:
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memset(emtp, 0, sizeof(*emtp));
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sfc_dma_free(sa, &mcdi->mem);
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fail_dma_alloc:
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mcdi->state = SFC_MCDI_UNINITIALIZED;
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return rc;
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}
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void
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sfc_mcdi_fini(struct sfc_adapter *sa)
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{
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struct sfc_mcdi *mcdi;
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efx_mcdi_transport_t *emtp;
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sfc_log_init(sa, "entry");
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mcdi = &sa->mcdi;
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emtp = &mcdi->transport;
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rte_spinlock_lock(&mcdi->lock);
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SFC_ASSERT(mcdi->state == SFC_MCDI_INITIALIZED);
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mcdi->state = SFC_MCDI_UNINITIALIZED;
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sfc_log_init(sa, "fini MCDI");
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efx_mcdi_fini(sa->nic);
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memset(emtp, 0, sizeof(*emtp));
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rte_spinlock_unlock(&mcdi->lock);
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sfc_dma_free(sa, &mcdi->mem);
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}
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