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93e1821c80
PECI is an interface that may be used by different types of devices. Add a peci-cpu driver compatible with Intel processors. The driver is responsible for handling auxiliary devices that can subsequently be used by other drivers (e.g. hwmons). Reviewed-by: Pierre-Louis Bossart <pierre-louis.bossart@linux.intel.com> Acked-by: Joel Stanley <joel@jms.id.au> Signed-off-by: Iwona Winiarska <iwona.winiarska@intel.com> Link: https://lore.kernel.org/r/20220208153639.255278-10-iwona.winiarska@intel.com Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
483 lines
13 KiB
C
483 lines
13 KiB
C
// SPDX-License-Identifier: GPL-2.0-only
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// Copyright (c) 2021 Intel Corporation
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#include <linux/bug.h>
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#include <linux/export.h>
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#include <linux/pci.h>
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#include <linux/peci.h>
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#include <linux/slab.h>
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#include <linux/types.h>
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#include <asm/unaligned.h>
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#include "internal.h"
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#define PECI_GET_DIB_CMD 0xf7
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#define PECI_GET_DIB_WR_LEN 1
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#define PECI_GET_DIB_RD_LEN 8
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#define PECI_GET_TEMP_CMD 0x01
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#define PECI_GET_TEMP_WR_LEN 1
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#define PECI_GET_TEMP_RD_LEN 2
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#define PECI_RDPKGCFG_CMD 0xa1
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#define PECI_RDPKGCFG_WR_LEN 5
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#define PECI_RDPKGCFG_RD_LEN_BASE 1
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#define PECI_WRPKGCFG_CMD 0xa5
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#define PECI_WRPKGCFG_WR_LEN_BASE 6
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#define PECI_WRPKGCFG_RD_LEN 1
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#define PECI_RDIAMSR_CMD 0xb1
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#define PECI_RDIAMSR_WR_LEN 5
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#define PECI_RDIAMSR_RD_LEN 9
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#define PECI_WRIAMSR_CMD 0xb5
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#define PECI_RDIAMSREX_CMD 0xd1
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#define PECI_RDIAMSREX_WR_LEN 6
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#define PECI_RDIAMSREX_RD_LEN 9
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#define PECI_RDPCICFG_CMD 0x61
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#define PECI_RDPCICFG_WR_LEN 6
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#define PECI_RDPCICFG_RD_LEN 5
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#define PECI_RDPCICFG_RD_LEN_MAX 24
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#define PECI_WRPCICFG_CMD 0x65
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#define PECI_RDPCICFGLOCAL_CMD 0xe1
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#define PECI_RDPCICFGLOCAL_WR_LEN 5
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#define PECI_RDPCICFGLOCAL_RD_LEN_BASE 1
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#define PECI_WRPCICFGLOCAL_CMD 0xe5
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#define PECI_WRPCICFGLOCAL_WR_LEN_BASE 6
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#define PECI_WRPCICFGLOCAL_RD_LEN 1
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#define PECI_ENDPTCFG_TYPE_LOCAL_PCI 0x03
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#define PECI_ENDPTCFG_TYPE_PCI 0x04
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#define PECI_ENDPTCFG_TYPE_MMIO 0x05
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#define PECI_ENDPTCFG_ADDR_TYPE_PCI 0x04
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#define PECI_ENDPTCFG_ADDR_TYPE_MMIO_D 0x05
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#define PECI_ENDPTCFG_ADDR_TYPE_MMIO_Q 0x06
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#define PECI_RDENDPTCFG_CMD 0xc1
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#define PECI_RDENDPTCFG_PCI_WR_LEN 12
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#define PECI_RDENDPTCFG_MMIO_WR_LEN_BASE 10
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#define PECI_RDENDPTCFG_MMIO_D_WR_LEN 14
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#define PECI_RDENDPTCFG_MMIO_Q_WR_LEN 18
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#define PECI_RDENDPTCFG_RD_LEN_BASE 1
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#define PECI_WRENDPTCFG_CMD 0xc5
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#define PECI_WRENDPTCFG_PCI_WR_LEN_BASE 13
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#define PECI_WRENDPTCFG_MMIO_D_WR_LEN_BASE 15
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#define PECI_WRENDPTCFG_MMIO_Q_WR_LEN_BASE 19
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#define PECI_WRENDPTCFG_RD_LEN 1
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/* Device Specific Completion Code (CC) Definition */
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#define PECI_CC_SUCCESS 0x40
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#define PECI_CC_NEED_RETRY 0x80
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#define PECI_CC_OUT_OF_RESOURCE 0x81
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#define PECI_CC_UNAVAIL_RESOURCE 0x82
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#define PECI_CC_INVALID_REQ 0x90
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#define PECI_CC_MCA_ERROR 0x91
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#define PECI_CC_CATASTROPHIC_MCA_ERROR 0x93
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#define PECI_CC_FATAL_MCA_ERROR 0x94
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#define PECI_CC_PARITY_ERR_GPSB_OR_PMSB 0x98
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#define PECI_CC_PARITY_ERR_GPSB_OR_PMSB_IERR 0x9B
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#define PECI_CC_PARITY_ERR_GPSB_OR_PMSB_MCA 0x9C
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#define PECI_RETRY_BIT BIT(0)
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#define PECI_RETRY_TIMEOUT msecs_to_jiffies(700)
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#define PECI_RETRY_INTERVAL_MIN msecs_to_jiffies(1)
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#define PECI_RETRY_INTERVAL_MAX msecs_to_jiffies(128)
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static u8 peci_request_data_cc(struct peci_request *req)
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{
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return req->rx.buf[0];
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}
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/**
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* peci_request_status() - return -errno based on PECI completion code
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* @req: the PECI request that contains response data with completion code
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*
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* It can't be used for Ping(), GetDIB() and GetTemp() - for those commands we
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* don't expect completion code in the response.
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*
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* Return: -errno
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*/
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int peci_request_status(struct peci_request *req)
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{
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u8 cc = peci_request_data_cc(req);
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if (cc != PECI_CC_SUCCESS)
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dev_dbg(&req->device->dev, "ret: %#02x\n", cc);
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switch (cc) {
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case PECI_CC_SUCCESS:
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return 0;
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case PECI_CC_NEED_RETRY:
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case PECI_CC_OUT_OF_RESOURCE:
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case PECI_CC_UNAVAIL_RESOURCE:
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return -EAGAIN;
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case PECI_CC_INVALID_REQ:
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return -EINVAL;
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case PECI_CC_MCA_ERROR:
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case PECI_CC_CATASTROPHIC_MCA_ERROR:
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case PECI_CC_FATAL_MCA_ERROR:
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case PECI_CC_PARITY_ERR_GPSB_OR_PMSB:
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case PECI_CC_PARITY_ERR_GPSB_OR_PMSB_IERR:
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case PECI_CC_PARITY_ERR_GPSB_OR_PMSB_MCA:
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return -EIO;
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}
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WARN_ONCE(1, "Unknown PECI completion code: %#02x\n", cc);
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return -EIO;
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}
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EXPORT_SYMBOL_NS_GPL(peci_request_status, PECI);
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static int peci_request_xfer(struct peci_request *req)
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{
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struct peci_device *device = req->device;
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struct peci_controller *controller = to_peci_controller(device->dev.parent);
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int ret;
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mutex_lock(&controller->bus_lock);
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ret = controller->ops->xfer(controller, device->addr, req);
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mutex_unlock(&controller->bus_lock);
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return ret;
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}
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static int peci_request_xfer_retry(struct peci_request *req)
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{
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long wait_interval = PECI_RETRY_INTERVAL_MIN;
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struct peci_device *device = req->device;
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struct peci_controller *controller = to_peci_controller(device->dev.parent);
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unsigned long start = jiffies;
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int ret;
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/* Don't try to use it for ping */
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if (WARN_ON(req->tx.len == 0))
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return 0;
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do {
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ret = peci_request_xfer(req);
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if (ret) {
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dev_dbg(&controller->dev, "xfer error: %d\n", ret);
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return ret;
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}
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if (peci_request_status(req) != -EAGAIN)
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return 0;
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/* Set the retry bit to indicate a retry attempt */
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req->tx.buf[1] |= PECI_RETRY_BIT;
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if (schedule_timeout_interruptible(wait_interval))
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return -ERESTARTSYS;
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wait_interval = min_t(long, wait_interval * 2, PECI_RETRY_INTERVAL_MAX);
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} while (time_before(jiffies, start + PECI_RETRY_TIMEOUT));
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dev_dbg(&controller->dev, "request timed out\n");
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return -ETIMEDOUT;
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}
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/**
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* peci_request_alloc() - allocate &struct peci_requests
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* @device: PECI device to which request is going to be sent
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* @tx_len: TX length
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* @rx_len: RX length
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*
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* Return: A pointer to a newly allocated &struct peci_request on success or NULL otherwise.
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*/
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struct peci_request *peci_request_alloc(struct peci_device *device, u8 tx_len, u8 rx_len)
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{
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struct peci_request *req;
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/*
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* TX and RX buffers are fixed length members of peci_request, this is
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* just a warn for developers to make sure to expand the buffers (or
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* change the allocation method) if we go over the current limit.
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*/
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if (WARN_ON_ONCE(tx_len > PECI_REQUEST_MAX_BUF_SIZE || rx_len > PECI_REQUEST_MAX_BUF_SIZE))
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return NULL;
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/*
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* PECI controllers that we are using now don't support DMA, this
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* should be converted to DMA API once support for controllers that do
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* allow it is added to avoid an extra copy.
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*/
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req = kzalloc(sizeof(*req), GFP_KERNEL);
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if (!req)
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return NULL;
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req->device = device;
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req->tx.len = tx_len;
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req->rx.len = rx_len;
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return req;
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}
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EXPORT_SYMBOL_NS_GPL(peci_request_alloc, PECI);
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/**
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* peci_request_free() - free peci_request
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* @req: the PECI request to be freed
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*/
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void peci_request_free(struct peci_request *req)
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{
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kfree(req);
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}
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EXPORT_SYMBOL_NS_GPL(peci_request_free, PECI);
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struct peci_request *peci_xfer_get_dib(struct peci_device *device)
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{
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struct peci_request *req;
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int ret;
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req = peci_request_alloc(device, PECI_GET_DIB_WR_LEN, PECI_GET_DIB_RD_LEN);
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if (!req)
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return ERR_PTR(-ENOMEM);
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req->tx.buf[0] = PECI_GET_DIB_CMD;
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ret = peci_request_xfer(req);
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if (ret) {
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peci_request_free(req);
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return ERR_PTR(ret);
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}
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return req;
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}
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EXPORT_SYMBOL_NS_GPL(peci_xfer_get_dib, PECI);
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struct peci_request *peci_xfer_get_temp(struct peci_device *device)
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{
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struct peci_request *req;
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int ret;
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req = peci_request_alloc(device, PECI_GET_TEMP_WR_LEN, PECI_GET_TEMP_RD_LEN);
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if (!req)
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return ERR_PTR(-ENOMEM);
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req->tx.buf[0] = PECI_GET_TEMP_CMD;
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ret = peci_request_xfer(req);
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if (ret) {
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peci_request_free(req);
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return ERR_PTR(ret);
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}
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return req;
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}
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EXPORT_SYMBOL_NS_GPL(peci_xfer_get_temp, PECI);
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static struct peci_request *
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__pkg_cfg_read(struct peci_device *device, u8 index, u16 param, u8 len)
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{
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struct peci_request *req;
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int ret;
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req = peci_request_alloc(device, PECI_RDPKGCFG_WR_LEN, PECI_RDPKGCFG_RD_LEN_BASE + len);
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if (!req)
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return ERR_PTR(-ENOMEM);
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req->tx.buf[0] = PECI_RDPKGCFG_CMD;
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req->tx.buf[1] = 0;
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req->tx.buf[2] = index;
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put_unaligned_le16(param, &req->tx.buf[3]);
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ret = peci_request_xfer_retry(req);
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if (ret) {
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peci_request_free(req);
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return ERR_PTR(ret);
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}
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return req;
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}
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static u32 __get_pci_addr(u8 bus, u8 dev, u8 func, u16 reg)
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{
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return reg | PCI_DEVID(bus, PCI_DEVFN(dev, func)) << 12;
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}
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static struct peci_request *
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__pci_cfg_local_read(struct peci_device *device, u8 bus, u8 dev, u8 func, u16 reg, u8 len)
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{
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struct peci_request *req;
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u32 pci_addr;
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int ret;
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req = peci_request_alloc(device, PECI_RDPCICFGLOCAL_WR_LEN,
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PECI_RDPCICFGLOCAL_RD_LEN_BASE + len);
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if (!req)
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return ERR_PTR(-ENOMEM);
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pci_addr = __get_pci_addr(bus, dev, func, reg);
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req->tx.buf[0] = PECI_RDPCICFGLOCAL_CMD;
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req->tx.buf[1] = 0;
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put_unaligned_le24(pci_addr, &req->tx.buf[2]);
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ret = peci_request_xfer_retry(req);
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if (ret) {
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peci_request_free(req);
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return ERR_PTR(ret);
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}
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return req;
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}
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static struct peci_request *
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__ep_pci_cfg_read(struct peci_device *device, u8 msg_type, u8 seg,
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u8 bus, u8 dev, u8 func, u16 reg, u8 len)
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{
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struct peci_request *req;
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u32 pci_addr;
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int ret;
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req = peci_request_alloc(device, PECI_RDENDPTCFG_PCI_WR_LEN,
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PECI_RDENDPTCFG_RD_LEN_BASE + len);
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if (!req)
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return ERR_PTR(-ENOMEM);
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pci_addr = __get_pci_addr(bus, dev, func, reg);
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req->tx.buf[0] = PECI_RDENDPTCFG_CMD;
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req->tx.buf[1] = 0;
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req->tx.buf[2] = msg_type;
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req->tx.buf[3] = 0;
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req->tx.buf[4] = 0;
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req->tx.buf[5] = 0;
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req->tx.buf[6] = PECI_ENDPTCFG_ADDR_TYPE_PCI;
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req->tx.buf[7] = seg; /* PCI Segment */
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put_unaligned_le32(pci_addr, &req->tx.buf[8]);
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ret = peci_request_xfer_retry(req);
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if (ret) {
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peci_request_free(req);
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return ERR_PTR(ret);
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}
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return req;
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}
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static struct peci_request *
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__ep_mmio_read(struct peci_device *device, u8 bar, u8 addr_type, u8 seg,
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u8 bus, u8 dev, u8 func, u64 offset, u8 tx_len, u8 len)
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{
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struct peci_request *req;
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int ret;
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req = peci_request_alloc(device, tx_len, PECI_RDENDPTCFG_RD_LEN_BASE + len);
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if (!req)
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return ERR_PTR(-ENOMEM);
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req->tx.buf[0] = PECI_RDENDPTCFG_CMD;
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req->tx.buf[1] = 0;
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req->tx.buf[2] = PECI_ENDPTCFG_TYPE_MMIO;
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req->tx.buf[3] = 0; /* Endpoint ID */
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req->tx.buf[4] = 0; /* Reserved */
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req->tx.buf[5] = bar;
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req->tx.buf[6] = addr_type;
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req->tx.buf[7] = seg; /* PCI Segment */
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req->tx.buf[8] = PCI_DEVFN(dev, func);
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req->tx.buf[9] = bus; /* PCI Bus */
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if (addr_type == PECI_ENDPTCFG_ADDR_TYPE_MMIO_D)
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put_unaligned_le32(offset, &req->tx.buf[10]);
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else
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put_unaligned_le64(offset, &req->tx.buf[10]);
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ret = peci_request_xfer_retry(req);
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if (ret) {
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peci_request_free(req);
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return ERR_PTR(ret);
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}
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return req;
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}
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u8 peci_request_data_readb(struct peci_request *req)
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{
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return req->rx.buf[1];
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}
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EXPORT_SYMBOL_NS_GPL(peci_request_data_readb, PECI);
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u16 peci_request_data_readw(struct peci_request *req)
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{
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return get_unaligned_le16(&req->rx.buf[1]);
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}
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EXPORT_SYMBOL_NS_GPL(peci_request_data_readw, PECI);
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u32 peci_request_data_readl(struct peci_request *req)
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{
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return get_unaligned_le32(&req->rx.buf[1]);
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}
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EXPORT_SYMBOL_NS_GPL(peci_request_data_readl, PECI);
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u64 peci_request_data_readq(struct peci_request *req)
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{
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return get_unaligned_le64(&req->rx.buf[1]);
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}
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EXPORT_SYMBOL_NS_GPL(peci_request_data_readq, PECI);
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u64 peci_request_dib_read(struct peci_request *req)
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{
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return get_unaligned_le64(&req->rx.buf[0]);
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}
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EXPORT_SYMBOL_NS_GPL(peci_request_dib_read, PECI);
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s16 peci_request_temp_read(struct peci_request *req)
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{
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return get_unaligned_le16(&req->rx.buf[0]);
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}
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EXPORT_SYMBOL_NS_GPL(peci_request_temp_read, PECI);
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#define __read_pkg_config(x, type) \
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struct peci_request *peci_xfer_pkg_cfg_##x(struct peci_device *device, u8 index, u16 param) \
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{ \
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return __pkg_cfg_read(device, index, param, sizeof(type)); \
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} \
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EXPORT_SYMBOL_NS_GPL(peci_xfer_pkg_cfg_##x, PECI)
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__read_pkg_config(readb, u8);
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__read_pkg_config(readw, u16);
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__read_pkg_config(readl, u32);
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__read_pkg_config(readq, u64);
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#define __read_pci_config_local(x, type) \
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struct peci_request * \
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peci_xfer_pci_cfg_local_##x(struct peci_device *device, u8 bus, u8 dev, u8 func, u16 reg) \
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{ \
|
|
return __pci_cfg_local_read(device, bus, dev, func, reg, sizeof(type)); \
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} \
|
|
EXPORT_SYMBOL_NS_GPL(peci_xfer_pci_cfg_local_##x, PECI)
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|
|
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__read_pci_config_local(readb, u8);
|
|
__read_pci_config_local(readw, u16);
|
|
__read_pci_config_local(readl, u32);
|
|
|
|
#define __read_ep_pci_config(x, msg_type, type) \
|
|
struct peci_request * \
|
|
peci_xfer_ep_pci_cfg_##x(struct peci_device *device, u8 seg, u8 bus, u8 dev, u8 func, u16 reg) \
|
|
{ \
|
|
return __ep_pci_cfg_read(device, msg_type, seg, bus, dev, func, reg, sizeof(type)); \
|
|
} \
|
|
EXPORT_SYMBOL_NS_GPL(peci_xfer_ep_pci_cfg_##x, PECI)
|
|
|
|
__read_ep_pci_config(local_readb, PECI_ENDPTCFG_TYPE_LOCAL_PCI, u8);
|
|
__read_ep_pci_config(local_readw, PECI_ENDPTCFG_TYPE_LOCAL_PCI, u16);
|
|
__read_ep_pci_config(local_readl, PECI_ENDPTCFG_TYPE_LOCAL_PCI, u32);
|
|
__read_ep_pci_config(readb, PECI_ENDPTCFG_TYPE_PCI, u8);
|
|
__read_ep_pci_config(readw, PECI_ENDPTCFG_TYPE_PCI, u16);
|
|
__read_ep_pci_config(readl, PECI_ENDPTCFG_TYPE_PCI, u32);
|
|
|
|
#define __read_ep_mmio(x, y, addr_type, type1, type2) \
|
|
struct peci_request *peci_xfer_ep_mmio##y##_##x(struct peci_device *device, u8 bar, u8 seg, \
|
|
u8 bus, u8 dev, u8 func, u64 offset) \
|
|
{ \
|
|
return __ep_mmio_read(device, bar, addr_type, seg, bus, dev, func, \
|
|
offset, PECI_RDENDPTCFG_MMIO_WR_LEN_BASE + sizeof(type1), \
|
|
sizeof(type2)); \
|
|
} \
|
|
EXPORT_SYMBOL_NS_GPL(peci_xfer_ep_mmio##y##_##x, PECI)
|
|
|
|
__read_ep_mmio(readl, 32, PECI_ENDPTCFG_ADDR_TYPE_MMIO_D, u32, u32);
|
|
__read_ep_mmio(readl, 64, PECI_ENDPTCFG_ADDR_TYPE_MMIO_Q, u64, u32);
|