Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Rajneesh Bhardwaj | 3099 | 76.56% | 15 | 60.00% |
David E. Box | 669 | 16.53% | 1 | 4.00% |
Srinivas Pandruvada | 234 | 5.78% | 4 | 16.00% |
Andy Shevchenko | 21 | 0.52% | 2 | 8.00% |
Yangtao Li | 14 | 0.35% | 1 | 4.00% |
Andrey Ryabinin | 6 | 0.15% | 1 | 4.00% |
Dave Hansen | 5 | 0.12% | 1 | 4.00% |
Total | 4048 | 25 |
// SPDX-License-Identifier: GPL-2.0 /* * Intel Core SoC Power Management Controller Driver * * Copyright (c) 2016, Intel Corporation. * All Rights Reserved. * * Authors: Rajneesh Bhardwaj <rajneesh.bhardwaj@intel.com> * Vishwanath Somayaji <vishwanath.somayaji@intel.com> */ #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt #include <linux/acpi.h> #include <linux/bitfield.h> #include <linux/debugfs.h> #include <linux/delay.h> #include <linux/io.h> #include <linux/module.h> #include <linux/pci.h> #include <linux/uaccess.h> #include <asm/cpu_device_id.h> #include <asm/intel-family.h> #include "intel_pmc_core.h" #define ICPU(model, data) \ { X86_VENDOR_INTEL, 6, model, X86_FEATURE_MWAIT, (kernel_ulong_t)data } static struct pmc_dev pmc; static const struct pmc_bit_map spt_pll_map[] = { {"MIPI PLL", SPT_PMC_BIT_MPHY_CMN_LANE0}, {"GEN2 USB2PCIE2 PLL", SPT_PMC_BIT_MPHY_CMN_LANE1}, {"DMIPCIE3 PLL", SPT_PMC_BIT_MPHY_CMN_LANE2}, {"SATA PLL", SPT_PMC_BIT_MPHY_CMN_LANE3}, {}, }; static const struct pmc_bit_map spt_mphy_map[] = { {"MPHY CORE LANE 0", SPT_PMC_BIT_MPHY_LANE0}, {"MPHY CORE LANE 1", SPT_PMC_BIT_MPHY_LANE1}, {"MPHY CORE LANE 2", SPT_PMC_BIT_MPHY_LANE2}, {"MPHY CORE LANE 3", SPT_PMC_BIT_MPHY_LANE3}, {"MPHY CORE LANE 4", SPT_PMC_BIT_MPHY_LANE4}, {"MPHY CORE LANE 5", SPT_PMC_BIT_MPHY_LANE5}, {"MPHY CORE LANE 6", SPT_PMC_BIT_MPHY_LANE6}, {"MPHY CORE LANE 7", SPT_PMC_BIT_MPHY_LANE7}, {"MPHY CORE LANE 8", SPT_PMC_BIT_MPHY_LANE8}, {"MPHY CORE LANE 9", SPT_PMC_BIT_MPHY_LANE9}, {"MPHY CORE LANE 10", SPT_PMC_BIT_MPHY_LANE10}, {"MPHY CORE LANE 11", SPT_PMC_BIT_MPHY_LANE11}, {"MPHY CORE LANE 12", SPT_PMC_BIT_MPHY_LANE12}, {"MPHY CORE LANE 13", SPT_PMC_BIT_MPHY_LANE13}, {"MPHY CORE LANE 14", SPT_PMC_BIT_MPHY_LANE14}, {"MPHY CORE LANE 15", SPT_PMC_BIT_MPHY_LANE15}, {}, }; static const struct pmc_bit_map spt_pfear_map[] = { {"PMC", SPT_PMC_BIT_PMC}, {"OPI-DMI", SPT_PMC_BIT_OPI}, {"SPI / eSPI", SPT_PMC_BIT_SPI}, {"XHCI", SPT_PMC_BIT_XHCI}, {"SPA", SPT_PMC_BIT_SPA}, {"SPB", SPT_PMC_BIT_SPB}, {"SPC", SPT_PMC_BIT_SPC}, {"GBE", SPT_PMC_BIT_GBE}, {"SATA", SPT_PMC_BIT_SATA}, {"HDA-PGD0", SPT_PMC_BIT_HDA_PGD0}, {"HDA-PGD1", SPT_PMC_BIT_HDA_PGD1}, {"HDA-PGD2", SPT_PMC_BIT_HDA_PGD2}, {"HDA-PGD3", SPT_PMC_BIT_HDA_PGD3}, {"RSVD", SPT_PMC_BIT_RSVD_0B}, {"LPSS", SPT_PMC_BIT_LPSS}, {"LPC", SPT_PMC_BIT_LPC}, {"SMB", SPT_PMC_BIT_SMB}, {"ISH", SPT_PMC_BIT_ISH}, {"P2SB", SPT_PMC_BIT_P2SB}, {"DFX", SPT_PMC_BIT_DFX}, {"SCC", SPT_PMC_BIT_SCC}, {"RSVD", SPT_PMC_BIT_RSVD_0C}, {"FUSE", SPT_PMC_BIT_FUSE}, {"CAMERA", SPT_PMC_BIT_CAMREA}, {"RSVD", SPT_PMC_BIT_RSVD_0D}, {"USB3-OTG", SPT_PMC_BIT_USB3_OTG}, {"EXI", SPT_PMC_BIT_EXI}, {"CSE", SPT_PMC_BIT_CSE}, {"CSME_KVM", SPT_PMC_BIT_CSME_KVM}, {"CSME_PMT", SPT_PMC_BIT_CSME_PMT}, {"CSME_CLINK", SPT_PMC_BIT_CSME_CLINK}, {"CSME_PTIO", SPT_PMC_BIT_CSME_PTIO}, {"CSME_USBR", SPT_PMC_BIT_CSME_USBR}, {"CSME_SUSRAM", SPT_PMC_BIT_CSME_SUSRAM}, {"CSME_SMT", SPT_PMC_BIT_CSME_SMT}, {"RSVD", SPT_PMC_BIT_RSVD_1A}, {"CSME_SMS2", SPT_PMC_BIT_CSME_SMS2}, {"CSME_SMS1", SPT_PMC_BIT_CSME_SMS1}, {"CSME_RTC", SPT_PMC_BIT_CSME_RTC}, {"CSME_PSF", SPT_PMC_BIT_CSME_PSF}, {}, }; static const struct pmc_bit_map spt_ltr_show_map[] = { {"SOUTHPORT_A", SPT_PMC_LTR_SPA}, {"SOUTHPORT_B", SPT_PMC_LTR_SPB}, {"SATA", SPT_PMC_LTR_SATA}, {"GIGABIT_ETHERNET", SPT_PMC_LTR_GBE}, {"XHCI", SPT_PMC_LTR_XHCI}, {"ME", SPT_PMC_LTR_ME}, /* EVA is Enterprise Value Add, doesn't really exist on PCH */ {"EVA", SPT_PMC_LTR_EVA}, {"SOUTHPORT_C", SPT_PMC_LTR_SPC}, {"HD_AUDIO", SPT_PMC_LTR_AZ}, {"LPSS", SPT_PMC_LTR_LPSS}, {"SOUTHPORT_D", SPT_PMC_LTR_SPD}, {"SOUTHPORT_E", SPT_PMC_LTR_SPE}, {"CAMERA", SPT_PMC_LTR_CAM}, {"ESPI", SPT_PMC_LTR_ESPI}, {"SCC", SPT_PMC_LTR_SCC}, {"ISH", SPT_PMC_LTR_ISH}, /* Below two cannot be used for LTR_IGNORE */ {"CURRENT_PLATFORM", SPT_PMC_LTR_CUR_PLT}, {"AGGREGATED_SYSTEM", SPT_PMC_LTR_CUR_ASLT}, {} }; static const struct pmc_reg_map spt_reg_map = { .pfear_sts = spt_pfear_map, .mphy_sts = spt_mphy_map, .pll_sts = spt_pll_map, .ltr_show_sts = spt_ltr_show_map, .slp_s0_offset = SPT_PMC_SLP_S0_RES_COUNTER_OFFSET, .ltr_ignore_offset = SPT_PMC_LTR_IGNORE_OFFSET, .regmap_length = SPT_PMC_MMIO_REG_LEN, .ppfear0_offset = SPT_PMC_XRAM_PPFEAR0A, .ppfear_buckets = SPT_PPFEAR_NUM_ENTRIES, .pm_cfg_offset = SPT_PMC_PM_CFG_OFFSET, .pm_read_disable_bit = SPT_PMC_READ_DISABLE_BIT, .ltr_ignore_max = SPT_NUM_IP_IGN_ALLOWED, }; /* Cannonlake: PGD PFET Enable Ack Status Register(s) bitmap */ static const struct pmc_bit_map cnp_pfear_map[] = { {"PMC", BIT(0)}, {"OPI-DMI", BIT(1)}, {"SPI/eSPI", BIT(2)}, {"XHCI", BIT(3)}, {"SPA", BIT(4)}, {"SPB", BIT(5)}, {"SPC", BIT(6)}, {"GBE", BIT(7)}, {"SATA", BIT(0)}, {"HDA_PGD0", BIT(1)}, {"HDA_PGD1", BIT(2)}, {"HDA_PGD2", BIT(3)}, {"HDA_PGD3", BIT(4)}, {"SPD", BIT(5)}, {"LPSS", BIT(6)}, {"LPC", BIT(7)}, {"SMB", BIT(0)}, {"ISH", BIT(1)}, {"P2SB", BIT(2)}, {"NPK_VNN", BIT(3)}, {"SDX", BIT(4)}, {"SPE", BIT(5)}, {"Fuse", BIT(6)}, {"Res_23", BIT(7)}, {"CSME_FSC", BIT(0)}, {"USB3_OTG", BIT(1)}, {"EXI", BIT(2)}, {"CSE", BIT(3)}, {"csme_kvm", BIT(4)}, {"csme_pmt", BIT(5)}, {"csme_clink", BIT(6)}, {"csme_ptio", BIT(7)}, {"csme_usbr", BIT(0)}, {"csme_susram", BIT(1)}, {"csme_smt1", BIT(2)}, {"CSME_SMT4", BIT(3)}, {"csme_sms2", BIT(4)}, {"csme_sms1", BIT(5)}, {"csme_rtc", BIT(6)}, {"csme_psf", BIT(7)}, {"SBR0", BIT(0)}, {"SBR1", BIT(1)}, {"SBR2", BIT(2)}, {"SBR3", BIT(3)}, {"SBR4", BIT(4)}, {"SBR5", BIT(5)}, {"CSME_PECI", BIT(6)}, {"PSF1", BIT(7)}, {"PSF2", BIT(0)}, {"PSF3", BIT(1)}, {"PSF4", BIT(2)}, {"CNVI", BIT(3)}, {"UFS0", BIT(4)}, {"EMMC", BIT(5)}, {"Res_6", BIT(6)}, {"SBR6", BIT(7)}, {"SBR7", BIT(0)}, {"NPK_AON", BIT(1)}, {"HDA_PGD4", BIT(2)}, {"HDA_PGD5", BIT(3)}, {"HDA_PGD6", BIT(4)}, {} }; static const struct pmc_bit_map cnp_slps0_dbg0_map[] = { {"AUDIO_D3", BIT(0)}, {"OTG_D3", BIT(1)}, {"XHCI_D3", BIT(2)}, {"LPIO_D3", BIT(3)}, {"SDX_D3", BIT(4)}, {"SATA_D3", BIT(5)}, {"UFS0_D3", BIT(6)}, {"UFS1_D3", BIT(7)}, {"EMMC_D3", BIT(8)}, {} }; static const struct pmc_bit_map cnp_slps0_dbg1_map[] = { {"SDIO_PLL_OFF", BIT(0)}, {"USB2_PLL_OFF", BIT(1)}, {"AUDIO_PLL_OFF", BIT(2)}, {"OC_PLL_OFF", BIT(3)}, {"MAIN_PLL_OFF", BIT(4)}, {"XOSC_OFF", BIT(5)}, {"LPC_CLKS_GATED", BIT(6)}, {"PCIE_CLKREQS_IDLE", BIT(7)}, {"AUDIO_ROSC_OFF", BIT(8)}, {"HPET_XOSC_CLK_REQ", BIT(9)}, {"PMC_ROSC_SLOW_CLK", BIT(10)}, {"AON2_ROSC_GATED", BIT(11)}, {"CLKACKS_DEASSERTED", BIT(12)}, {} }; static const struct pmc_bit_map cnp_slps0_dbg2_map[] = { {"MPHY_CORE_GATED", BIT(0)}, {"CSME_GATED", BIT(1)}, {"USB2_SUS_GATED", BIT(2)}, {"DYN_FLEX_IO_IDLE", BIT(3)}, {"GBE_NO_LINK", BIT(4)}, {"THERM_SEN_DISABLED", BIT(5)}, {"PCIE_LOW_POWER", BIT(6)}, {"ISH_VNNAON_REQ_ACT", BIT(7)}, {"ISH_VNN_REQ_ACT", BIT(8)}, {"CNV_VNNAON_REQ_ACT", BIT(9)}, {"CNV_VNN_REQ_ACT", BIT(10)}, {"NPK_VNNON_REQ_ACT", BIT(11)}, {"PMSYNC_STATE_IDLE", BIT(12)}, {"ALST_GT_THRES", BIT(13)}, {"PMC_ARC_PG_READY", BIT(14)}, {} }; static const struct pmc_bit_map *cnp_slps0_dbg_maps[] = { cnp_slps0_dbg0_map, cnp_slps0_dbg1_map, cnp_slps0_dbg2_map, NULL, }; static const struct pmc_bit_map cnp_ltr_show_map[] = { {"SOUTHPORT_A", CNP_PMC_LTR_SPA}, {"SOUTHPORT_B", CNP_PMC_LTR_SPB}, {"SATA", CNP_PMC_LTR_SATA}, {"GIGABIT_ETHERNET", CNP_PMC_LTR_GBE}, {"XHCI", CNP_PMC_LTR_XHCI}, {"ME", CNP_PMC_LTR_ME}, /* EVA is Enterprise Value Add, doesn't really exist on PCH */ {"EVA", CNP_PMC_LTR_EVA}, {"SOUTHPORT_C", CNP_PMC_LTR_SPC}, {"HD_AUDIO", CNP_PMC_LTR_AZ}, {"CNV", CNP_PMC_LTR_CNV}, {"LPSS", CNP_PMC_LTR_LPSS}, {"SOUTHPORT_D", CNP_PMC_LTR_SPD}, {"SOUTHPORT_E", CNP_PMC_LTR_SPE}, {"CAMERA", CNP_PMC_LTR_CAM}, {"ESPI", CNP_PMC_LTR_ESPI}, {"SCC", CNP_PMC_LTR_SCC}, {"ISH", CNP_PMC_LTR_ISH}, {"UFSX2", CNP_PMC_LTR_UFSX2}, {"EMMC", CNP_PMC_LTR_EMMC}, /* Below two cannot be used for LTR_IGNORE */ {"CURRENT_PLATFORM", CNP_PMC_LTR_CUR_PLT}, {"AGGREGATED_SYSTEM", CNP_PMC_LTR_CUR_ASLT}, {} }; static const struct pmc_reg_map cnp_reg_map = { .pfear_sts = cnp_pfear_map, .slp_s0_offset = CNP_PMC_SLP_S0_RES_COUNTER_OFFSET, .slps0_dbg_maps = cnp_slps0_dbg_maps, .ltr_show_sts = cnp_ltr_show_map, .slps0_dbg_offset = CNP_PMC_SLPS0_DBG_OFFSET, .ltr_ignore_offset = CNP_PMC_LTR_IGNORE_OFFSET, .regmap_length = CNP_PMC_MMIO_REG_LEN, .ppfear0_offset = CNP_PMC_HOST_PPFEAR0A, .ppfear_buckets = CNP_PPFEAR_NUM_ENTRIES, .pm_cfg_offset = CNP_PMC_PM_CFG_OFFSET, .pm_read_disable_bit = CNP_PMC_READ_DISABLE_BIT, .ltr_ignore_max = CNP_NUM_IP_IGN_ALLOWED, }; static inline u8 pmc_core_reg_read_byte(struct pmc_dev *pmcdev, int offset) { return readb(pmcdev->regbase + offset); } static inline u32 pmc_core_reg_read(struct pmc_dev *pmcdev, int reg_offset) { return readl(pmcdev->regbase + reg_offset); } static inline void pmc_core_reg_write(struct pmc_dev *pmcdev, int reg_offset, u32 val) { writel(val, pmcdev->regbase + reg_offset); } static inline u32 pmc_core_adjust_slp_s0_step(u32 value) { return value * SPT_PMC_SLP_S0_RES_COUNTER_STEP; } static int pmc_core_dev_state_get(void *data, u64 *val) { struct pmc_dev *pmcdev = data; const struct pmc_reg_map *map = pmcdev->map; u32 value; value = pmc_core_reg_read(pmcdev, map->slp_s0_offset); *val = pmc_core_adjust_slp_s0_step(value); return 0; } DEFINE_DEBUGFS_ATTRIBUTE(pmc_core_dev_state, pmc_core_dev_state_get, NULL, "%llu\n"); static int pmc_core_check_read_lock_bit(void) { struct pmc_dev *pmcdev = &pmc; u32 value; value = pmc_core_reg_read(pmcdev, pmcdev->map->pm_cfg_offset); return value & BIT(pmcdev->map->pm_read_disable_bit); } #if IS_ENABLED(CONFIG_DEBUG_FS) static bool slps0_dbg_latch; static void pmc_core_display_map(struct seq_file *s, int index, u8 pf_reg, const struct pmc_bit_map *pf_map) { seq_printf(s, "PCH IP: %-2d - %-32s\tState: %s\n", index, pf_map[index].name, pf_map[index].bit_mask & pf_reg ? "Off" : "On"); } static int pmc_core_ppfear_show(struct seq_file *s, void *unused) { struct pmc_dev *pmcdev = s->private; const struct pmc_bit_map *map = pmcdev->map->pfear_sts; u8 pf_regs[PPFEAR_MAX_NUM_ENTRIES]; int index, iter; iter = pmcdev->map->ppfear0_offset; for (index = 0; index < pmcdev->map->ppfear_buckets && index < PPFEAR_MAX_NUM_ENTRIES; index++, iter++) pf_regs[index] = pmc_core_reg_read_byte(pmcdev, iter); for (index = 0; map[index].name; index++) pmc_core_display_map(s, index, pf_regs[index / 8], map); return 0; } DEFINE_SHOW_ATTRIBUTE(pmc_core_ppfear); /* This function should return link status, 0 means ready */ static int pmc_core_mtpmc_link_status(void) { struct pmc_dev *pmcdev = &pmc; u32 value; value = pmc_core_reg_read(pmcdev, SPT_PMC_PM_STS_OFFSET); return value & BIT(SPT_PMC_MSG_FULL_STS_BIT); } static int pmc_core_send_msg(u32 *addr_xram) { struct pmc_dev *pmcdev = &pmc; u32 dest; int timeout; for (timeout = NUM_RETRIES; timeout > 0; timeout--) { if (pmc_core_mtpmc_link_status() == 0) break; msleep(5); } if (timeout <= 0 && pmc_core_mtpmc_link_status()) return -EBUSY; dest = (*addr_xram & MTPMC_MASK) | (1U << 1); pmc_core_reg_write(pmcdev, SPT_PMC_MTPMC_OFFSET, dest); return 0; } static int pmc_core_mphy_pg_show(struct seq_file *s, void *unused) { struct pmc_dev *pmcdev = s->private; const struct pmc_bit_map *map = pmcdev->map->mphy_sts; u32 mphy_core_reg_low, mphy_core_reg_high; u32 val_low, val_high; int index, err = 0; if (pmcdev->pmc_xram_read_bit) { seq_puts(s, "Access denied: please disable PMC_READ_DISABLE setting in BIOS."); return 0; } mphy_core_reg_low = (SPT_PMC_MPHY_CORE_STS_0 << 16); mphy_core_reg_high = (SPT_PMC_MPHY_CORE_STS_1 << 16); mutex_lock(&pmcdev->lock); if (pmc_core_send_msg(&mphy_core_reg_low) != 0) { err = -EBUSY; goto out_unlock; } msleep(10); val_low = pmc_core_reg_read(pmcdev, SPT_PMC_MFPMC_OFFSET); if (pmc_core_send_msg(&mphy_core_reg_high) != 0) { err = -EBUSY; goto out_unlock; } msleep(10); val_high = pmc_core_reg_read(pmcdev, SPT_PMC_MFPMC_OFFSET); for (index = 0; map[index].name && index < 8; index++) { seq_printf(s, "%-32s\tState: %s\n", map[index].name, map[index].bit_mask & val_low ? "Not power gated" : "Power gated"); } for (index = 8; map[index].name; index++) { seq_printf(s, "%-32s\tState: %s\n", map[index].name, map[index].bit_mask & val_high ? "Not power gated" : "Power gated"); } out_unlock: mutex_unlock(&pmcdev->lock); return err; } DEFINE_SHOW_ATTRIBUTE(pmc_core_mphy_pg); static int pmc_core_pll_show(struct seq_file *s, void *unused) { struct pmc_dev *pmcdev = s->private; const struct pmc_bit_map *map = pmcdev->map->pll_sts; u32 mphy_common_reg, val; int index, err = 0; if (pmcdev->pmc_xram_read_bit) { seq_puts(s, "Access denied: please disable PMC_READ_DISABLE setting in BIOS."); return 0; } mphy_common_reg = (SPT_PMC_MPHY_COM_STS_0 << 16); mutex_lock(&pmcdev->lock); if (pmc_core_send_msg(&mphy_common_reg) != 0) { err = -EBUSY; goto out_unlock; } /* Observed PMC HW response latency for MTPMC-MFPMC is ~10 ms */ msleep(10); val = pmc_core_reg_read(pmcdev, SPT_PMC_MFPMC_OFFSET); for (index = 0; map[index].name ; index++) { seq_printf(s, "%-32s\tState: %s\n", map[index].name, map[index].bit_mask & val ? "Active" : "Idle"); } out_unlock: mutex_unlock(&pmcdev->lock); return err; } DEFINE_SHOW_ATTRIBUTE(pmc_core_pll); static ssize_t pmc_core_ltr_ignore_write(struct file *file, const char __user *userbuf, size_t count, loff_t *ppos) { struct pmc_dev *pmcdev = &pmc; const struct pmc_reg_map *map = pmcdev->map; u32 val, buf_size, fd; int err = 0; buf_size = count < 64 ? count : 64; mutex_lock(&pmcdev->lock); if (kstrtou32_from_user(userbuf, buf_size, 10, &val)) { err = -EFAULT; goto out_unlock; } if (val > map->ltr_ignore_max) { err = -EINVAL; goto out_unlock; } fd = pmc_core_reg_read(pmcdev, map->ltr_ignore_offset); fd |= (1U << val); pmc_core_reg_write(pmcdev, map->ltr_ignore_offset, fd); out_unlock: mutex_unlock(&pmcdev->lock); return err == 0 ? count : err; } static int pmc_core_ltr_ignore_show(struct seq_file *s, void *unused) { return 0; } static int pmc_core_ltr_ignore_open(struct inode *inode, struct file *file) { return single_open(file, pmc_core_ltr_ignore_show, inode->i_private); } static const struct file_operations pmc_core_ltr_ignore_ops = { .open = pmc_core_ltr_ignore_open, .read = seq_read, .write = pmc_core_ltr_ignore_write, .llseek = seq_lseek, .release = single_release, }; static void pmc_core_slps0_dbg_latch(struct pmc_dev *pmcdev, bool reset) { const struct pmc_reg_map *map = pmcdev->map; u32 fd; mutex_lock(&pmcdev->lock); if (!reset && !slps0_dbg_latch) goto out_unlock; fd = pmc_core_reg_read(pmcdev, map->slps0_dbg_offset); if (reset) fd &= ~CNP_PMC_LATCH_SLPS0_EVENTS; else fd |= CNP_PMC_LATCH_SLPS0_EVENTS; pmc_core_reg_write(pmcdev, map->slps0_dbg_offset, fd); slps0_dbg_latch = 0; out_unlock: mutex_unlock(&pmcdev->lock); } static int pmc_core_slps0_dbg_show(struct seq_file *s, void *unused) { struct pmc_dev *pmcdev = s->private; const struct pmc_bit_map **maps = pmcdev->map->slps0_dbg_maps; const struct pmc_bit_map *map; int offset; u32 data; pmc_core_slps0_dbg_latch(pmcdev, false); offset = pmcdev->map->slps0_dbg_offset; while (*maps) { map = *maps; data = pmc_core_reg_read(pmcdev, offset); offset += 4; while (map->name) { seq_printf(s, "SLP_S0_DBG: %-32s\tState: %s\n", map->name, data & map->bit_mask ? "Yes" : "No"); ++map; } ++maps; } pmc_core_slps0_dbg_latch(pmcdev, true); return 0; } DEFINE_SHOW_ATTRIBUTE(pmc_core_slps0_dbg); static u32 convert_ltr_scale(u32 val) { /* * As per PCIE specification supporting document * ECN_LatencyTolnReporting_14Aug08.pdf the Latency * Tolerance Reporting data payload is encoded in a * 3 bit scale and 10 bit value fields. Values are * multiplied by the indicated scale to yield an absolute time * value, expressible in a range from 1 nanosecond to * 2^25*(2^10-1) = 34,326,183,936 nanoseconds. * * scale encoding is as follows: * * ---------------------------------------------- * |scale factor | Multiplier (ns) | * ---------------------------------------------- * | 0 | 1 | * | 1 | 32 | * | 2 | 1024 | * | 3 | 32768 | * | 4 | 1048576 | * | 5 | 33554432 | * | 6 | Invalid | * | 7 | Invalid | * ---------------------------------------------- */ if (val > 5) { pr_warn("Invalid LTR scale factor.\n"); return 0; } return 1U << (5 * val); } static int pmc_core_ltr_show(struct seq_file *s, void *unused) { struct pmc_dev *pmcdev = s->private; const struct pmc_bit_map *map = pmcdev->map->ltr_show_sts; u64 decoded_snoop_ltr, decoded_non_snoop_ltr; u32 ltr_raw_data, scale, val; u16 snoop_ltr, nonsnoop_ltr; int index; for (index = 0; map[index].name ; index++) { decoded_snoop_ltr = decoded_non_snoop_ltr = 0; ltr_raw_data = pmc_core_reg_read(pmcdev, map[index].bit_mask); snoop_ltr = ltr_raw_data & ~MTPMC_MASK; nonsnoop_ltr = (ltr_raw_data >> 0x10) & ~MTPMC_MASK; if (FIELD_GET(LTR_REQ_NONSNOOP, ltr_raw_data)) { scale = FIELD_GET(LTR_DECODED_SCALE, nonsnoop_ltr); val = FIELD_GET(LTR_DECODED_VAL, nonsnoop_ltr); decoded_non_snoop_ltr = val * convert_ltr_scale(scale); } if (FIELD_GET(LTR_REQ_SNOOP, ltr_raw_data)) { scale = FIELD_GET(LTR_DECODED_SCALE, snoop_ltr); val = FIELD_GET(LTR_DECODED_VAL, snoop_ltr); decoded_snoop_ltr = val * convert_ltr_scale(scale); } seq_printf(s, "%-32s\tLTR: RAW: 0x%-16x\tNon-Snoop(ns): %-16llu\tSnoop(ns): %-16llu\n", map[index].name, ltr_raw_data, decoded_non_snoop_ltr, decoded_snoop_ltr); } return 0; } DEFINE_SHOW_ATTRIBUTE(pmc_core_ltr); static void pmc_core_dbgfs_unregister(struct pmc_dev *pmcdev) { debugfs_remove_recursive(pmcdev->dbgfs_dir); } static int pmc_core_dbgfs_register(struct pmc_dev *pmcdev) { struct dentry *dir; dir = debugfs_create_dir("pmc_core", NULL); if (!dir) return -ENOMEM; pmcdev->dbgfs_dir = dir; debugfs_create_file("slp_s0_residency_usec", 0444, dir, pmcdev, &pmc_core_dev_state); debugfs_create_file("pch_ip_power_gating_status", 0444, dir, pmcdev, &pmc_core_ppfear_fops); debugfs_create_file("ltr_ignore", 0644, dir, pmcdev, &pmc_core_ltr_ignore_ops); debugfs_create_file("ltr_show", 0644, dir, pmcdev, &pmc_core_ltr_fops); if (pmcdev->map->pll_sts) debugfs_create_file("pll_status", 0444, dir, pmcdev, &pmc_core_pll_fops); if (pmcdev->map->mphy_sts) debugfs_create_file("mphy_core_lanes_power_gating_status", 0444, dir, pmcdev, &pmc_core_mphy_pg_fops); if (pmcdev->map->slps0_dbg_maps) { debugfs_create_file("slp_s0_debug_status", 0444, dir, pmcdev, &pmc_core_slps0_dbg_fops); debugfs_create_bool("slp_s0_dbg_latch", 0644, dir, &slps0_dbg_latch); } return 0; } #else static inline int pmc_core_dbgfs_register(struct pmc_dev *pmcdev) { return 0; } static inline void pmc_core_dbgfs_unregister(struct pmc_dev *pmcdev) { } #endif /* CONFIG_DEBUG_FS */ static const struct x86_cpu_id intel_pmc_core_ids[] = { ICPU(INTEL_FAM6_SKYLAKE_MOBILE, &spt_reg_map), ICPU(INTEL_FAM6_SKYLAKE_DESKTOP, &spt_reg_map), ICPU(INTEL_FAM6_KABYLAKE_MOBILE, &spt_reg_map), ICPU(INTEL_FAM6_KABYLAKE_DESKTOP, &spt_reg_map), ICPU(INTEL_FAM6_CANNONLAKE_MOBILE, &cnp_reg_map), {} }; MODULE_DEVICE_TABLE(x86cpu, intel_pmc_core_ids); static const struct pci_device_id pmc_pci_ids[] = { { PCI_VDEVICE(INTEL, SPT_PMC_PCI_DEVICE_ID), 0}, { 0, }, }; static int __init pmc_core_probe(void) { struct pmc_dev *pmcdev = &pmc; const struct x86_cpu_id *cpu_id; u64 slp_s0_addr; int err; cpu_id = x86_match_cpu(intel_pmc_core_ids); if (!cpu_id) return -ENODEV; pmcdev->map = (struct pmc_reg_map *)cpu_id->driver_data; /* * Coffeelake has CPU ID of Kabylake and Cannonlake PCH. So here * Sunrisepoint PCH regmap can't be used. Use Cannonlake PCH regmap * in this case. */ if (!pci_dev_present(pmc_pci_ids)) pmcdev->map = &cnp_reg_map; if (lpit_read_residency_count_address(&slp_s0_addr)) pmcdev->base_addr = PMC_BASE_ADDR_DEFAULT; else pmcdev->base_addr = slp_s0_addr - pmcdev->map->slp_s0_offset; pmcdev->regbase = ioremap(pmcdev->base_addr, pmcdev->map->regmap_length); if (!pmcdev->regbase) return -ENOMEM; mutex_init(&pmcdev->lock); pmcdev->pmc_xram_read_bit = pmc_core_check_read_lock_bit(); err = pmc_core_dbgfs_register(pmcdev); if (err < 0) { pr_warn(" debugfs register failed.\n"); iounmap(pmcdev->regbase); return err; } pr_info(" initialized\n"); return 0; } module_init(pmc_core_probe) static void __exit pmc_core_remove(void) { struct pmc_dev *pmcdev = &pmc; pmc_core_dbgfs_unregister(pmcdev); mutex_destroy(&pmcdev->lock); iounmap(pmcdev->regbase); } module_exit(pmc_core_remove) MODULE_LICENSE("GPL v2"); MODULE_DESCRIPTION("Intel PMC Core Driver");
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