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Release 4.11 drivers/misc/mei/hw-me.c

Directory: drivers/misc/mei
/*
 *
 * Intel Management Engine Interface (Intel MEI) Linux driver
 * Copyright (c) 2003-2012, Intel Corporation.
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
 * more details.
 *
 */

#include <linux/pci.h>

#include <linux/kthread.h>
#include <linux/interrupt.h>
#include <linux/pm_runtime.h>

#include "mei_dev.h"
#include "hbm.h"

#include "hw-me.h"
#include "hw-me-regs.h"

#include "mei-trace.h"

/**
 * mei_me_reg_read - Reads 32bit data from the mei device
 *
 * @hw: the me hardware structure
 * @offset: offset from which to read the data
 *
 * Return: register value (u32)
 */

static inline u32 mei_me_reg_read(const struct mei_me_hw *hw, unsigned long offset) { return ioread32(hw->mem_addr + offset); }

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/** * mei_me_reg_write - Writes 32bit data to the mei device * * @hw: the me hardware structure * @offset: offset from which to write the data * @value: register value to write (u32) */
static inline void mei_me_reg_write(const struct mei_me_hw *hw, unsigned long offset, u32 value) { iowrite32(value, hw->mem_addr + offset); }

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/** * mei_me_mecbrw_read - Reads 32bit data from ME circular buffer * read window register * * @dev: the device structure * * Return: ME_CB_RW register value (u32) */
static inline u32 mei_me_mecbrw_read(const struct mei_device *dev) { return mei_me_reg_read(to_me_hw(dev), ME_CB_RW); }

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/** * mei_me_hcbww_write - write 32bit data to the host circular buffer * * @dev: the device structure * @data: 32bit data to be written to the host circular buffer */
static inline void mei_me_hcbww_write(struct mei_device *dev, u32 data) { mei_me_reg_write(to_me_hw(dev), H_CB_WW, data); }

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/** * mei_me_mecsr_read - Reads 32bit data from the ME CSR * * @dev: the device structure * * Return: ME_CSR_HA register value (u32) */
static inline u32 mei_me_mecsr_read(const struct mei_device *dev) { u32 reg; reg = mei_me_reg_read(to_me_hw(dev), ME_CSR_HA); trace_mei_reg_read(dev->dev, "ME_CSR_HA", ME_CSR_HA, reg); return reg; }

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/** * mei_hcsr_read - Reads 32bit data from the host CSR * * @dev: the device structure * * Return: H_CSR register value (u32) */
static inline u32 mei_hcsr_read(const struct mei_device *dev) { u32 reg; reg = mei_me_reg_read(to_me_hw(dev), H_CSR); trace_mei_reg_read(dev->dev, "H_CSR", H_CSR, reg); return reg; }

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/** * mei_hcsr_write - writes H_CSR register to the mei device * * @dev: the device structure * @reg: new register value */
static inline void mei_hcsr_write(struct mei_device *dev, u32 reg) { trace_mei_reg_write(dev->dev, "H_CSR", H_CSR, reg); mei_me_reg_write(to_me_hw(dev), H_CSR, reg); }

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/** * mei_hcsr_set - writes H_CSR register to the mei device, * and ignores the H_IS bit for it is write-one-to-zero. * * @dev: the device structure * @reg: new register value */
static inline void mei_hcsr_set(struct mei_device *dev, u32 reg) { reg &= ~H_CSR_IS_MASK; mei_hcsr_write(dev, reg); }

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/** * mei_hcsr_set_hig - set host interrupt (set H_IG) * * @dev: the device structure */
static inline void mei_hcsr_set_hig(struct mei_device *dev) { u32 hcsr; hcsr = mei_hcsr_read(dev) | H_IG; mei_hcsr_set(dev, hcsr); }

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/** * mei_me_d0i3c_read - Reads 32bit data from the D0I3C register * * @dev: the device structure * * Return: H_D0I3C register value (u32) */
static inline u32 mei_me_d0i3c_read(const struct mei_device *dev) { u32 reg; reg = mei_me_reg_read(to_me_hw(dev), H_D0I3C); trace_mei_reg_read(dev->dev, "H_D0I3C", H_D0I3C, reg); return reg; }

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/** * mei_me_d0i3c_write - writes H_D0I3C register to device * * @dev: the device structure * @reg: new register value */
static inline void mei_me_d0i3c_write(struct mei_device *dev, u32 reg) { trace_mei_reg_write(dev->dev, "H_D0I3C", H_D0I3C, reg); mei_me_reg_write(to_me_hw(dev), H_D0I3C, reg); }

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Alexander Usyskin40100.00%2100.00%
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/** * mei_me_fw_status - read fw status register from pci config space * * @dev: mei device * @fw_status: fw status register values * * Return: 0 on success, error otherwise */
static int mei_me_fw_status(struct mei_device *dev, struct mei_fw_status *fw_status) { struct pci_dev *pdev = to_pci_dev(dev->dev); struct mei_me_hw *hw = to_me_hw(dev); const struct mei_fw_status *fw_src = &hw->cfg->fw_status; int ret; int i; if (!fw_status) return -EINVAL; fw_status->count = fw_src->count; for (i = 0; i < fw_src->count && i < MEI_FW_STATUS_MAX; i++) { ret = pci_read_config_dword(pdev, fw_src->status[i], &fw_status->status[i]); trace_mei_pci_cfg_read(dev->dev, "PCI_CFG_HSF_X", fw_src->status[i], fw_status->status[i]); if (ret) return ret; } return 0; }

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/** * mei_me_hw_config - configure hw dependent settings * * @dev: mei device */
static void mei_me_hw_config(struct mei_device *dev) { struct pci_dev *pdev = to_pci_dev(dev->dev); struct mei_me_hw *hw = to_me_hw(dev); u32 hcsr, reg; /* Doesn't change in runtime */ hcsr = mei_hcsr_read(dev); dev->hbuf_depth = (hcsr & H_CBD) >> 24; reg = 0; pci_read_config_dword(pdev, PCI_CFG_HFS_1, &reg); trace_mei_pci_cfg_read(dev->dev, "PCI_CFG_HFS_1", PCI_CFG_HFS_1, reg); hw->d0i3_supported = ((reg & PCI_CFG_HFS_1_D0I3_MSK) == PCI_CFG_HFS_1_D0I3_MSK); hw->pg_state = MEI_PG_OFF; if (hw->d0i3_supported) { reg = mei_me_d0i3c_read(dev); if (reg & H_D0I3C_I3) hw->pg_state = MEI_PG_ON; } }

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Alexander Usyskin8060.61%233.33%
Tomas Winkler5239.39%466.67%
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/** * mei_me_pg_state - translate internal pg state * to the mei power gating state * * @dev: mei device * * Return: MEI_PG_OFF if aliveness is on and MEI_PG_ON otherwise */
static inline enum mei_pg_state mei_me_pg_state(struct mei_device *dev) { struct mei_me_hw *hw = to_me_hw(dev); return hw->pg_state; }

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static inline u32 me_intr_src(u32 hcsr) { return hcsr & H_CSR_IS_MASK; }

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/** * me_intr_disable - disables mei device interrupts * using supplied hcsr register value. * * @dev: the device structure * @hcsr: supplied hcsr register value */
static inline void me_intr_disable(struct mei_device *dev, u32 hcsr) { hcsr &= ~H_CSR_IE_MASK; mei_hcsr_set(dev, hcsr); }

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/** * mei_me_intr_clear - clear and stop interrupts * * @dev: the device structure * @hcsr: supplied hcsr register value */
static inline void me_intr_clear(struct mei_device *dev, u32 hcsr) { if (me_intr_src(hcsr)) mei_hcsr_write(dev, hcsr); }

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/** * mei_me_intr_clear - clear and stop interrupts * * @dev: the device structure */
static void mei_me_intr_clear(struct mei_device *dev) { u32 hcsr = mei_hcsr_read(dev); me_intr_clear(dev, hcsr); }

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/** * mei_me_intr_enable - enables mei device interrupts * * @dev: the device structure */
static void mei_me_intr_enable(struct mei_device *dev) { u32 hcsr = mei_hcsr_read(dev); hcsr |= H_CSR_IE_MASK; mei_hcsr_set(dev, hcsr); }

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/** * mei_me_intr_disable - disables mei device interrupts * * @dev: the device structure */
static void mei_me_intr_disable(struct mei_device *dev) { u32 hcsr = mei_hcsr_read(dev); me_intr_disable(dev, hcsr); }

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/** * mei_me_synchronize_irq - wait for pending IRQ handlers * * @dev: the device structure */
static void mei_me_synchronize_irq(struct mei_device *dev) { struct pci_dev *pdev = to_pci_dev(dev->dev); synchronize_irq(pdev->irq); }

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/** * mei_me_hw_reset_release - release device from the reset * * @dev: the device structure */
static void mei_me_hw_reset_release(struct mei_device *dev) { u32 hcsr = mei_hcsr_read(dev); hcsr |= H_IG; hcsr &= ~H_RST; mei_hcsr_set(dev, hcsr); /* complete this write before we set host ready on another CPU */ mmiowb(); }

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/** * mei_me_host_set_ready - enable device * * @dev: mei device */
static void mei_me_host_set_ready(struct mei_device *dev) { u32 hcsr = mei_hcsr_read(dev); hcsr |= H_CSR_IE_MASK | H_IG | H_RDY; mei_hcsr_set(dev, hcsr); }

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/** * mei_me_host_is_ready - check whether the host has turned ready * * @dev: mei device * Return: bool */
static bool mei_me_host_is_ready(struct mei_device *dev) { u32 hcsr = mei_hcsr_read(dev); return (hcsr & H_RDY) == H_RDY; }

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/** * mei_me_hw_is_ready - check whether the me(hw) has turned ready * * @dev: mei device * Return: bool */
static bool mei_me_hw_is_ready(struct mei_device *dev) { u32 mecsr = mei_me_mecsr_read(dev); return (mecsr & ME_RDY_HRA) == ME_RDY_HRA; }

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/** * mei_me_hw_is_resetting - check whether the me(hw) is in reset * * @dev: mei device * Return: bool */
static bool mei_me_hw_is_resetting(struct mei_device *dev) { u32 mecsr = mei_me_mecsr_read(dev); return (mecsr & ME_RST_HRA) == ME_RST_HRA; }

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/** * mei_me_hw_ready_wait - wait until the me(hw) has turned ready * or timeout is reached * * @dev: mei device * Return: 0 on success, error otherwise */
static int mei_me_hw_ready_wait(struct mei_device *dev) { mutex_unlock(&dev->device_lock); wait_event_timeout(dev->wait_hw_ready, dev->recvd_hw_ready, mei_secs_to_jiffies(MEI_HW_READY_TIMEOUT)); mutex_lock(&dev->device_lock); if (!dev->recvd_hw_ready) { dev_err(dev->dev, "wait hw ready failed\n"); return -ETIME; } mei_me_hw_reset_release(dev); dev->recvd_hw_ready = false; return 0; }

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/** * mei_me_hw_start - hw start routine * * @dev: mei device * Return: 0 on success, error otherwise */
static int mei_me_hw_start(struct mei_device *dev) { int ret = mei_me_hw_ready_wait(dev); if (ret) return ret; dev_dbg(dev->dev, "hw is ready\n"); mei_me_host_set_ready(dev); return ret; }

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/** * mei_hbuf_filled_slots - gets number of device filled buffer slots * * @dev: the device structure * * Return: number of filled slots */
static unsigned char mei_hbuf_filled_slots(struct mei_device *dev) { u32 hcsr; char read_ptr, write_ptr; hcsr = mei_hcsr_read(dev); read_ptr = (char) ((hcsr & H_CBRP) >> 8); write_ptr = (char) ((hcsr & H_CBWP) >> 16); return (unsigned char) (write_ptr - read_ptr); }

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/** * mei_me_hbuf_is_empty - checks if host buffer is empty. * * @dev: the device structure * * Return: true if empty, false - otherwise. */
static bool mei_me_hbuf_is_empty(struct mei_device *dev) { return mei_hbuf_filled_slots(dev) == 0; }

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/** * mei_me_hbuf_empty_slots - counts write empty slots. * * @dev: the device structure * * Return: -EOVERFLOW if overflow, otherwise empty slots count */
static int mei_me_hbuf_empty_slots(struct mei_device *dev) { unsigned char filled_slots, empty_slots; filled_slots = mei_hbuf_filled_slots(dev); empty_slots = dev->hbuf_depth - filled_slots; /* check for overflow */ if (filled_slots > dev->hbuf_depth) return -EOVERFLOW; return empty_slots; }

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/** * mei_me_hbuf_max_len - returns size of hw buffer. * * @dev: the device structure * * Return: size of hw buffer in bytes */
static size_t mei_me_hbuf_max_len(const struct mei_device *dev) { return dev->hbuf_depth * sizeof(u32) - sizeof(struct mei_msg_hdr); }

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/** * mei_me_hbuf_write - writes a message to host hw buffer. * * @dev: the device structure * @header: mei HECI header of message * @buf: message payload will be written * * Return: -EIO if write has failed */
static int mei_me_hbuf_write(struct mei_device *dev, struct mei_msg_hdr *header, const unsigned char *buf) { unsigned long rem; unsigned long length = header->length; u32 *reg_buf = (u32 *)buf; u32 dw_cnt; int i; int empty_slots; dev_dbg(dev->dev, MEI_HDR_FMT, MEI_HDR_PRM(header)); empty_slots = mei_hbuf_empty_slots(dev); dev_dbg(dev->dev, "empty slots = %hu.\n", empty_slots); dw_cnt = mei_data2slots(length); if (empty_slots < 0 || dw_cnt > empty_slots) return -EMSGSIZE; mei_me_hcbww_write(dev, *((u32 *) header)); for (i = 0; i < length / 4; i++) mei_me_hcbww_write(dev, reg_buf[i]); rem = length & 0x3; if (rem > 0) { u32 reg = 0; memcpy(&reg, &buf[length - rem], rem); mei_me_hcbww_write(dev, reg); } mei_hcsr_set_hig(dev); if (!mei_me_hw_is_ready(dev)) return -EIO; return 0; }

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/** * mei_me_count_full_read_slots - counts read full slots. * * @dev: the device structure * * Return: -EOVERFLOW if overflow, otherwise filled slots count */
static int mei_me_count_full_read_slots(struct mei_device *dev) { u32 me_csr; char read_ptr, write_ptr; unsigned char buffer_depth, filled_slots; me_csr = mei_me_mecsr_read(dev); buffer_depth = (unsigned char)((me_csr & ME_CBD_HRA) >> 24); read_ptr = (char) ((me_csr & ME_CBRP_HRA) >> 8); write_ptr = (char) ((me_csr & ME_CBWP_HRA) >> 16); filled_slots = (unsigned char) (write_ptr - read_ptr); /* check for overflow */ if (filled_slots > buffer_depth) return -EOVERFLOW; dev_dbg(dev->dev, "filled_slots =%08x\n", filled_slots); return (int)filled_slots; }

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/** * mei_me_read_slots - reads a message from mei device. * * @dev: the device structure * @buffer: message buffer will be written * @buffer_length: message size will be read * * Return: always 0 */
static int mei_me_read_slots(struct mei_device *dev, unsigned char *buffer, unsigned long buffer_length) { u32 *reg_buf = (u32 *)buffer; for (; buffer_length >= sizeof(u32); buffer_length -= sizeof(u32)) *reg_buf++ = mei_me_mecbrw_read(dev); if (buffer_length > 0) { u32 reg = mei_me_mecbrw_read(dev); memcpy(reg_buf, &reg, buffer_length); } mei_hcsr_set_hig(dev); return 0; }

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/** * mei_me_pg_set - write pg enter register * * @dev: the device structure */
static void mei_me_pg_set(struct mei_device *dev) { struct mei_me_hw *hw = to_me_hw(dev); u32 reg; reg = mei_me_reg_read(hw, H_HPG_CSR); trace_mei_reg_read(dev->dev, "H_HPG_CSR", H_HPG_CSR, reg); reg |= H_HPG_CSR_PGI; trace_mei_reg_write(dev->dev, "H_HPG_CSR", H_HPG_CSR, reg); mei_me_reg_write(hw, H_HPG_CSR, reg); }

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/** * mei_me_pg_unset - write pg exit register * * @dev: the device structure */
static void mei_me_pg_unset(struct mei_device *dev) { struct mei_me_hw *hw = to_me_hw(dev); u32 reg; reg = mei_me_reg_read(hw, H_HPG_CSR); trace_mei_reg_read(dev->dev, "H_HPG_CSR", H_HPG_CSR, reg); WARN(!(reg & H_HPG_CSR_PGI), "PGI is not set\n"); reg |= H_HPG_CSR_PGIHEXR; trace_mei_reg_write(dev->dev, "H_HPG_CSR", H_HPG_CSR, reg); mei_me_reg_write(hw, H_HPG_CSR, reg); }

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/** * mei_me_pg_legacy_enter_sync - perform legacy pg entry procedure * * @dev: the device structure * * Return: 0 on success an error code otherwise */
static int mei_me_pg_legacy_enter_sync(struct mei_device *dev) { struct mei_me_hw *hw = to_me_hw(dev); unsigned long timeout = mei_secs_to_jiffies(MEI_PGI_TIMEOUT); int ret; dev->pg_event = MEI_PG_EVENT_WAIT; ret = mei_hbm_pg(dev, MEI_PG_ISOLATION_ENTRY_REQ_CMD); if (ret) return ret; mutex_unlock(&dev->device_lock); wait_event_timeout(dev->wait_pg, dev->pg_event == MEI_PG_EVENT_RECEIVED, timeout); mutex_lock(&dev->device_lock); if (dev->pg_event == MEI_PG_EVENT_RECEIVED) { mei_me_pg_set(dev); ret = 0; } else { ret = -ETIME; } dev->pg_event = MEI_PG_EVENT_IDLE; hw->pg_state = MEI_PG_ON; return ret; }

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Total128100.00%3100.00%

/** * mei_me_pg_legacy_exit_sync - perform legacy pg exit procedure * * @dev: the device structure * * Return: 0 on success an error code otherwise */
static int mei_me_pg_legacy_exit_sync(struct mei_device *dev) { struct mei_me_hw *hw = to_me_hw(dev); unsigned long timeout = mei_secs_to_jiffies(MEI_PGI_TIMEOUT); int ret; if (dev->pg_event == MEI_PG_EVENT_RECEIVED) goto reply; dev->pg_event = MEI_PG_EVENT_WAIT; mei_me_pg_unset(dev); mutex_unlock(&dev->device_lock); wait_event_timeout(dev->wait_pg, dev->pg_event == MEI_PG_EVENT_RECEIVED, timeout); mutex_lock(&dev->device_lock); reply: if (dev->pg_event != MEI_PG_EVENT_RECEIVED) { ret = -ETIME; goto out; } dev->pg_event = MEI_PG_EVENT_INTR_WAIT; ret = mei_hbm_pg(dev, MEI_PG_ISOLATION_EXIT_RES_CMD); if (ret) return ret; mutex_unlock(&dev->device_lock); wait_event_timeout(dev->wait_pg, dev->pg_event == MEI_PG_EVENT_INTR_RECEIVED, timeout); mutex_lock(&dev->device_lock); if (dev->pg_event == MEI_PG_EVENT_INTR_RECEIVED) ret = 0; else ret = -ETIME; out: dev->pg_event = MEI_PG_EVENT_IDLE; hw->pg_state = MEI_PG_OFF; return ret; }

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PersonTokensPropCommitsCommitProp
Tomas Winkler12262.89%125.00%
Alexander Usyskin7237.11%375.00%
Total194100.00%4100.00%

/** * mei_me_pg_in_transition - is device now in pg transition * * @dev: the device structure * * Return: true if in pg transition, false otherwise */
static bool mei_me_pg_in_transition(struct mei_device *dev) { return dev->pg_event >= MEI_PG_EVENT_WAIT && dev->pg_event <= MEI_PG_EVENT_INTR_WAIT; }

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Alexander Usyskin24100.00%1100.00%
Total24100.00%1100.00%

/** * mei_me_pg_is_enabled - detect if PG is supported by HW * * @dev: the device structure * * Return: true is pg supported, false otherwise */
static bool mei_me_pg_is_enabled(struct mei_device *dev) { struct mei_me_hw *hw = to_me_hw(dev); u32 reg = mei_me_mecsr_read(dev); if (hw->d0i3_supported) return true; if ((reg & ME_PGIC_HRA) == 0) goto notsupported; if (!dev->hbm_f_pg_supported) goto notsupported; return true; notsupported: dev_dbg(dev->dev, "pg: not supported: d0i3 = %d HGP = %d hbm version %d.%d ?= %d.%d\n", hw->d0i3_supported, !!(reg & ME_PGIC_HRA), dev->version.major_version, dev->version.minor_version, HBM_MAJOR_VERSION_PGI, HBM_MINOR_VERSION_PGI); return false; }

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PersonTokensPropCommitsCommitProp
Tomas Winkler8277.36%375.00%
Alexander Usyskin2422.64%125.00%
Total106100.00%4100.00%

/** * mei_me_d0i3_set - write d0i3 register bit on mei device. * * @dev: the device structure * @intr: ask for interrupt * * Return: D0I3C register value */
static u32 mei_me_d0i3_set(struct mei_device *dev, bool intr) { u32 reg = mei_me_d0i3c_read(dev); reg |= H_D0I3C_I3; if (intr) reg |= H_D0I3C_IR; else reg &= ~H_D0I3C_IR; mei_me_d0i3c_write(dev, reg); /* read it to ensure HW consistency */ reg = mei_me_d0i3c_read(dev); return reg; }

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Alexander Usyskin58100.00%2100.00%
Total58100.00%2100.00%

/** * mei_me_d0i3_unset - clean d0i3 register bit on mei device. * * @dev: the device structure * * Return: D0I3C register value */
static u32 mei_me_d0i3_unset(struct mei_device *dev) { u32 reg = mei_me_d0i3c_read(dev); reg &= ~H_D0I3C_I3; reg |= H_D0I3C_IR; mei_me_d0i3c_write(dev, reg); /* read it to ensure HW consistency */ reg = mei_me_d0i3c_read(dev); return reg; }

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Alexander Usyskin46100.00%2100.00%
Total46100.00%2100.00%

/** * mei_me_d0i3_enter_sync - perform d0i3 entry procedure * * @dev: the device structure * * Return: 0 on success an error code otherwise */
static int mei_me_d0i3_enter_sync(struct mei_device *dev) { struct mei_me_hw *hw = to_me_hw(dev); unsigned long d0i3_timeout = mei_secs_to_jiffies(MEI_D0I3_TIMEOUT); unsigned long pgi_timeout = mei_secs_to_jiffies(MEI_PGI_TIMEOUT); int ret; u32 reg; reg = mei_me_d0i3c_read(dev); if (reg & H_D0I3C_I3) { /* we are in d0i3, nothing to do */ dev_dbg(dev->dev, "d0i3 set not needed\n"); ret = 0; goto on; } /* PGI entry procedure */ dev->pg_event = MEI_PG_EVENT_WAIT; ret = mei_hbm_pg(dev, MEI_PG_ISOLATION_ENTRY_REQ_CMD); if (ret) /* FIXME: should we reset here? */ goto out; mutex_unlock(&dev->device_lock); wait_event_timeout(dev->wait_pg, dev->pg_event == MEI_PG_EVENT_RECEIVED, pgi_timeout); mutex_lock(&dev->device_lock); if (dev->pg_event != MEI_PG_EVENT_RECEIVED) { ret = -ETIME; goto out; } /* end PGI entry procedure */ dev->pg_event = MEI_PG_EVENT_INTR_WAIT; reg = mei_me_d0i3_set(dev, true); if (!(reg & H_D0I3C_CIP)) { dev_dbg(dev->dev, "d0i3 enter wait not needed\n"); ret = 0; goto on; } mutex_unlock(&dev->device_lock); wait_event_timeout(dev->wait_pg, dev->pg_event == MEI_PG_EVENT_INTR_RECEIVED, d0i3_timeout); mutex_lock(&dev->device_lock); if (dev->pg_event != MEI_PG_EVENT_INTR_RECEIVED) { reg = mei_me_d0i3c_read(dev); if (!(reg & H_D0I3C_I3)) { ret = -ETIME; goto out; } } ret = 0; on: hw->pg_state = MEI_PG_ON; out: dev->pg_event = MEI_PG_EVENT_IDLE; dev_dbg(dev->dev, "d0i3 enter ret = %d\n", ret); return ret; }

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Alexander Usyskin294100.00%1100.00%
Total294100.00%1100.00%

/** * mei_me_d0i3_enter - perform d0i3 entry procedure * no hbm PG handshake * no waiting for confirmation; runs with interrupts * disabled * * @dev: the device structure * * Return: 0 on success an error code otherwise */
static int mei_me_d0i3_enter(struct mei_device *dev) { struct mei_me_hw *hw = to_me_hw(dev); u32 reg; reg = mei_me_d0i3c_read(dev); if (reg & H_D0I3C_I3) { /* we are in d0i3, nothing to do */ dev_dbg(dev->dev, "already d0i3 : set not needed\n"); goto on; } mei_me_d0i3_set(dev, false); on: hw->pg_state = MEI_PG_ON; dev->pg_event = MEI_PG_EVENT_IDLE; dev_dbg(dev->dev, "d0i3 enter\n"); return 0; }

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Alexander Usyskin85100.00%1100.00%
Total85100.00%1100.00%

/** * mei_me_d0i3_exit_sync - perform d0i3 exit procedure * * @dev: the device structure * * Return: 0 on success an error code otherwise */
static int mei_me_d0i3_exit_sync(struct mei_device *dev) { struct mei_me_hw *hw = to_me_hw(dev); unsigned long timeout = mei_secs_to_jiffies(MEI_D0I3_TIMEOUT); int ret; u32 reg; dev->pg_event = MEI_PG_EVENT_INTR_WAIT; reg = mei_me_d0i3c_read(dev); if (!(reg & H_D0I3C_I3)) { /* we are not in d0i3, nothing to do */ dev_dbg(dev->dev, "d0i3 exit not needed\n"); ret = 0; goto off; } reg = mei_me_d0i3_unset(dev); if (!(reg & H_D0I3C_CIP)) { dev_dbg(dev->dev, "d0i3 exit wait not needed\n"); ret = 0; goto off; } mutex_unlock(&dev->device_lock); wait_event_timeout(dev->wait_pg, dev->pg_event == MEI_PG_EVENT_INTR_RECEIVED, timeout); mutex_lock(&dev->device_lock); if (dev->pg_event != MEI_PG_EVENT_INTR_RECEIVED) { reg = mei_me_d0i3c_read(dev); if (reg & H_D0I3C_I3) { ret = -ETIME; goto out; } } ret = 0; off: hw->pg_state = MEI_PG_OFF; out: dev->pg_event = MEI_PG_EVENT_IDLE; dev_dbg(dev->dev, "d0i3 exit ret = %d\n", ret); return ret; }

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Alexander Usyskin209100.00%1100.00%
Total209100.00%1100.00%

/** * mei_me_pg_legacy_intr - perform legacy pg processing * in interrupt thread handler * * @dev: the device structure */
static void mei_me_pg_legacy_intr(struct mei_device *dev) { struct mei_me_hw *hw = to_me_hw(dev); if (dev->pg_event != MEI_PG_EVENT_INTR_WAIT) return; dev->pg_event = MEI_PG_EVENT_INTR_RECEIVED; hw->pg_state = MEI_PG_OFF; if (waitqueue_active(&dev->wait_pg)) wake_up(&dev->wait_pg); }

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Alexander Usyskin60100.00%1100.00%
Total60100.00%1100.00%

/** * mei_me_d0i3_intr - perform d0i3 processing in interrupt thread handler * * @dev: the device structure * @intr_source: interrupt source */
static void mei_me_d0i3_intr(struct mei_device *dev, u32 intr_source) { struct mei_me_hw *hw = to_me_hw(dev); if (dev->pg_event == MEI_PG_EVENT_INTR_WAIT && (intr_source & H_D0I3C_IS)) { dev->pg_event = MEI_PG_EVENT_INTR_RECEIVED; if (hw->pg_state == MEI_PG_ON) { hw->pg_state = MEI_PG_OFF; if (dev->hbm_state != MEI_HBM_IDLE) { /* * force H_RDY because it could be * wiped off during PG */ dev_dbg(dev->dev, "d0i3 set host ready\n"); mei_me_host_set_ready(dev); } } else { hw->pg_state = MEI_PG_ON; } wake_up(&dev->wait_pg); } if (hw->pg_state == MEI_PG_ON && (intr_source & H_IS)) { /* * HW sent some data and we are in D0i3, so * we got here because of HW initiated exit from D0i3. * Start runtime pm resume sequence to exit low power state. */ dev_dbg(dev->dev, "d0i3 want resume\n"); mei_hbm_pg_resume(dev); } }

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Alexander Usyskin135100.00%2100.00%
Total135100.00%2100.00%

/** * mei_me_pg_intr - perform pg processing in interrupt thread handler * * @dev: the device structure * @intr_source: interrupt source */
static void mei_me_pg_intr(struct mei_device *dev, u32 intr_source) { struct mei_me_hw *hw = to_me_hw(dev); if (hw->d0i3_supported) mei_me_d0i3_intr(dev, intr_source); else mei_me_pg_legacy_intr(dev); }

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Alexander Usyskin43100.00%2100.00%
Total43100.00%2100.00%

/** * mei_me_pg_enter_sync - perform runtime pm entry procedure * * @dev: the device structure * * Return: 0 on success an error code otherwise */
int mei_me_pg_enter_sync(struct mei_device *dev) { struct mei_me_hw *hw = to_me_hw(dev); if (hw->d0i3_supported) return mei_me_d0i3_enter_sync(dev); else return mei_me_pg_legacy_enter_sync(dev); }

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Alexander Usyskin39100.00%1100.00%
Total39100.00%1100.00%

/** * mei_me_pg_exit_sync - perform runtime pm exit procedure * * @dev: the device structure * * Return: 0 on success an error code otherwise */
int mei_me_pg_exit_sync(struct mei_device *dev) { struct mei_me_hw *hw = to_me_hw(dev); if (hw->d0i3_supported) return mei_me_d0i3_exit_sync(dev); else return mei_me_pg_legacy_exit_sync(dev); }

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Alexander Usyskin39100.00%2100.00%
Total39100.00%2100.00%

/** * mei_me_hw_reset - resets fw via mei csr register. * * @dev: the device structure * @intr_enable: if interrupt should be enabled after reset. * * Return: 0 on success an error code otherwise */
static int mei_me_hw_reset(struct mei_device *dev, bool intr_enable) { struct mei_me_hw *hw = to_me_hw(dev); int ret; u32 hcsr; if (intr_enable) { mei_me_intr_enable(dev); if (hw->d0i3_supported) { ret = mei_me_d0i3_exit_sync(dev); if (ret) return ret; } } pm_runtime_set_active(dev->dev); hcsr = mei_hcsr_read(dev); /* H_RST may be found lit before reset is started, * for example if preceding reset flow hasn't completed. * In that case asserting H_RST will be ignored, therefore * we need to clean H_RST bit to start a successful reset sequence. */ if ((hcsr & H_RST) == H_RST) { dev_warn(dev->dev, "H_RST is set = 0x%08X", hcsr); hcsr &= ~H_RST; mei_hcsr_set(dev, hcsr); hcsr = mei_hcsr_read(dev); } hcsr |= H_RST | H_IG | H_CSR_IS_MASK; if (!intr_enable) hcsr &= ~H_CSR_IE_MASK; dev->recvd_hw_ready = false; mei_hcsr_write(dev, hcsr); /* * Host reads the H_CSR once to ensure that the * posted write to H_CSR completes. */ hcsr = mei_hcsr_read(dev); if ((hcsr & H_RST) == 0) dev_warn(dev->dev, "H_RST is not set = 0x%08X", hcsr); if ((hcsr & H_RDY) == H_RDY) dev_warn(dev->dev, "H_RDY is not cleared 0x%08X", hcsr); if (!intr_enable) { mei_me_hw_reset_release(dev); if (hw->d0i3_supported) { ret = mei_me_d0i3_enter(dev); if (ret) return ret; } } return 0; }

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Alexander Usyskin238100.00%3100.00%
Total238100.00%3100.00%

/** * mei_me_irq_quick_handler - The ISR of the MEI device * * @irq: The irq number * @dev_id: pointer to the device structure * * Return: irqreturn_t */
irqreturn_t mei_me_irq_quick_handler(int irq, void *dev_id) { struct mei_device *dev = (struct mei_device *)dev_id; u32 hcsr; hcsr = mei_hcsr_read(dev); if (!me_intr_src(hcsr)) return IRQ_NONE; dev_dbg(dev->dev, "interrupt source 0x%08X\n", me_intr_src(hcsr)); /* disable interrupts on device */ me_intr_disable(dev, hcsr); return IRQ_WAKE_THREAD; }

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Tomas Winkler4665.71%250.00%
Alexander Usyskin2434.29%250.00%
Total70100.00%4100.00%

/** * mei_me_irq_thread_handler - function called after ISR to handle the interrupt * processing. * * @irq: The irq number * @dev_id: pointer to the device structure * * Return: irqreturn_t * */
irqreturn_t mei_me_irq_thread_handler(int irq, void *dev_id) { struct mei_device *dev = (struct mei_device *) dev_id; struct list_head cmpl_list; s32 slots; u32 hcsr; int rets = 0; dev_dbg(dev->dev, "function called after ISR to handle the interrupt processing.\n"); /* initialize our complete list */ mutex_lock(&dev->device_lock); hcsr = mei_hcsr_read(dev); me_intr_clear(dev, hcsr); INIT_LIST_HEAD(&cmpl_list); /* check if ME wants a reset */ if (!mei_hw_is_ready(dev) && dev->dev_state != MEI_DEV_RESETTING) { dev_warn(dev->dev, "FW not ready: resetting.\n"); schedule_work(&dev->reset_work); goto end; } if (mei_me_hw_is_resetting(dev)) mei_hcsr_set_hig(dev); mei_me_pg_intr(dev, me_intr_src(hcsr)); /* check if we need to start the dev */ if (!mei_host_is_ready(dev)) { if (mei_hw_is_ready(dev)) { dev_dbg(dev->dev, "we need to start the dev.\n"); dev->recvd_hw_ready = true; wake_up(&dev->wait_hw_ready); } else { dev_dbg(dev->dev, "Spurious Interrupt\n"); } goto end; } /* check slots available for reading */ slots = mei_count_full_read_slots(dev); while (slots > 0) { dev_dbg(dev->dev, "slots to read = %08x\n", slots); rets = mei_irq_read_handler(dev, &cmpl_list, &slots); /* There is a race between ME write and interrupt delivery: * Not all data is always available immediately after the * interrupt, so try to read again on the next interrupt. */ if (rets == -ENODATA) break; if (rets && dev->dev_state != MEI_DEV_RESETTING) { dev_err(dev->dev, "mei_irq_read_handler ret = %d.\n", rets); schedule_work(&dev->reset_work); goto end; } } dev->hbuf_is_ready = mei_hbuf_is_ready(dev); /* * During PG handshake only allowed write is the replay to the * PG exit message, so block calling write function * if the pg event is in PG handshake */ if (dev->pg_event != MEI_PG_EVENT_WAIT && dev->pg_event != MEI_PG_EVENT_RECEIVED) { rets = mei_irq_write_handler(dev, &cmpl_list); dev->hbuf_is_ready = mei_hbuf_is_ready(dev); } mei_irq_compl_handler(dev, &cmpl_list); end: dev_dbg(dev->dev, "interrupt thread end ret = %d\n", rets); mei_me_intr_enable(dev); mutex_unlock(&dev->device_lock); return IRQ_HANDLED; }

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Tomas Winkler29782.73%857.14%
Alexander Usyskin6116.99%535.71%
Bill Nottingham10.28%17.14%
Total359100.00%14100.00%

static const struct mei_hw_ops mei_me_hw_ops = { .fw_status = mei_me_fw_status, .pg_state = mei_me_pg_state, .host_is_ready = mei_me_host_is_ready, .hw_is_ready = mei_me_hw_is_ready, .hw_reset = mei_me_hw_reset, .hw_config = mei_me_hw_config, .hw_start = mei_me_hw_start, .pg_in_transition = mei_me_pg_in_transition, .pg_is_enabled = mei_me_pg_is_enabled, .intr_clear = mei_me_intr_clear, .intr_enable = mei_me_intr_enable, .intr_disable = mei_me_intr_disable, .synchronize_irq = mei_me_synchronize_irq, .hbuf_free_slots = mei_me_hbuf_empty_slots, .hbuf_is_ready = mei_me_hbuf_is_empty, .hbuf_max_len = mei_me_hbuf_max_len, .write = mei_me_hbuf_write, .rdbuf_full_slots = mei_me_count_full_read_slots, .read_hdr = mei_me_mecbrw_read, .read = mei_me_read_slots };
static bool mei_me_fw_type_nm(struct pci_dev *pdev) { u32 reg; pci_read_config_dword(pdev, PCI_CFG_HFS_2, &reg); trace_mei_pci_cfg_read(&pdev->dev, "PCI_CFG_HFS_2", PCI_CFG_HFS_2, reg); /* make sure that bit 9 (NM) is up and bit 10 (DM) is down */ return (reg & 0x600) == 0x200; }

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Tomas Winkler48100.00%2100.00%
Total48100.00%2100.00%

#define MEI_CFG_FW_NM \ .quirk_probe = mei_me_fw_type_nm
static bool mei_me_fw_type_sps(struct pci_dev *pdev) { u32 reg; unsigned int devfn; /* * Read ME FW Status register to check for SPS Firmware * The SPS FW is only signaled in pci function 0 */ devfn = PCI_DEVFN(PCI_SLOT(pdev->devfn), 0); pci_bus_read_config_dword(pdev->bus, devfn, PCI_CFG_HFS_1, &reg); trace_mei_pci_cfg_read(&pdev->dev, "PCI_CFG_HFS_1", PCI_CFG_HFS_1, reg); /* if bits [19:16] = 15, running SPS Firmware */ return (reg & 0xf0000) == 0xf0000; }

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Tomas Winkler71100.00%3100.00%
Total71100.00%3100.00%

#define MEI_CFG_FW_SPS \ .quirk_probe = mei_me_fw_type_sps #define MEI_CFG_LEGACY_HFS \ .fw_status.count = 0 #define MEI_CFG_ICH_HFS \ .fw_status.count = 1, \ .fw_status.status[0] = PCI_CFG_HFS_1 #define MEI_CFG_PCH_HFS \ .fw_status.count = 2, \ .fw_status.status[0] = PCI_CFG_HFS_1, \ .fw_status.status[1] = PCI_CFG_HFS_2 #define MEI_CFG_PCH8_HFS \ .fw_status.count = 6, \ .fw_status.status[0] = PCI_CFG_HFS_1, \ .fw_status.status[1] = PCI_CFG_HFS_2, \ .fw_status.status[2] = PCI_CFG_HFS_3, \ .fw_status.status[3] = PCI_CFG_HFS_4, \ .fw_status.status[4] = PCI_CFG_HFS_5, \ .fw_status.status[5] = PCI_CFG_HFS_6 /* ICH Legacy devices */ const struct mei_cfg mei_me_legacy_cfg = { MEI_CFG_LEGACY_HFS, }; /* ICH devices */ const struct mei_cfg mei_me_ich_cfg = { MEI_CFG_ICH_HFS, }; /* PCH devices */ const struct mei_cfg mei_me_pch_cfg = { MEI_CFG_PCH_HFS, }; /* PCH Cougar Point and Patsburg with quirk for Node Manager exclusion */ const struct mei_cfg mei_me_pch_cpt_pbg_cfg = { MEI_CFG_PCH_HFS, MEI_CFG_FW_NM, }; /* PCH8 Lynx Point and newer devices */ const struct mei_cfg mei_me_pch8_cfg = { MEI_CFG_PCH8_HFS, }; /* PCH8 Lynx Point with quirk for SPS Firmware exclusion */ const struct mei_cfg mei_me_pch8_sps_cfg = { MEI_CFG_PCH8_HFS, MEI_CFG_FW_SPS, }; /** * mei_me_dev_init - allocates and initializes the mei device structure * * @pdev: The pci device structure * @cfg: per device generation config * * Return: The mei_device pointer on success, NULL on failure. */
struct mei_device *mei_me_dev_init(struct pci_dev *pdev, const struct mei_cfg *cfg) { struct mei_device *dev; struct mei_me_hw *hw; dev = devm_kzalloc(&pdev->dev, sizeof(struct mei_device) + sizeof(struct mei_me_hw), GFP_KERNEL); if (!dev) return NULL; hw = to_me_hw(dev); mei_device_init(dev, &pdev->dev, &mei_me_hw_ops); hw->cfg = cfg; return dev; }

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Tomas Winkler8292.13%583.33%
Alexander Usyskin77.87%116.67%
Total89100.00%6100.00%


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Tomas Winkler218748.56%5069.44%
Alexander Usyskin188741.90%1926.39%
Oren Weil4289.50%11.39%
Masanari Iida10.02%11.39%
Bill Nottingham10.02%11.39%
Total4504100.00%72100.00%
Directory: drivers/misc/mei
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