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// SPDX-License-Identifier: GPL-2.0-only
/*
* Intel Atom SoC Power Management Controller Driver
* Copyright (c) 2014-2015,2017,2022 Intel Corporation.
*/
#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
#include <linux/acpi.h>
#include <linux/debugfs.h>
#include <linux/device.h>
#include <linux/dmi.h>
#include <linux/init.h>
#include <linux/io.h>
#include <linux/platform_data/x86/clk-pmc-atom.h>
#include <linux/platform_data/x86/pmc_atom.h>
#include <linux/platform_data/x86/simatic-ipc.h>
#include <linux/platform_device.h>
#include <linux/pci.h>
#include <linux/seq_file.h>
#include <linux/suspend.h>
struct pmc_bit_map {
const char *name;
u32 bit_mask;
};
struct pmc_reg_map {
const struct pmc_bit_map *d3_sts_0;
const struct pmc_bit_map *d3_sts_1;
const struct pmc_bit_map *func_dis;
const struct pmc_bit_map *func_dis_2;
const struct pmc_bit_map *pss;
};
struct pmc_data {
const struct pmc_reg_map *map;
const struct pmc_clk *clks;
};
struct pmc_dev {
u32 base_addr;
void __iomem *regmap;
const struct pmc_reg_map *map;
#ifdef CONFIG_DEBUG_FS
struct dentry *dbgfs_dir;
#endif /* CONFIG_DEBUG_FS */
bool init;
};
static struct pmc_dev pmc_device;
static u32 acpi_base_addr;
static const struct pmc_clk byt_clks[] = {
{
.name = "xtal",
.freq = 25000000,
.parent_name = NULL,
},
{
.name = "pll",
.freq = 19200000,
.parent_name = "xtal",
},
{}
};
static const struct pmc_clk cht_clks[] = {
{
.name = "xtal",
.freq = 19200000,
.parent_name = NULL,
},
{}
};
static const struct pmc_bit_map d3_sts_0_map[] = {
{"LPSS1_F0_DMA", BIT_LPSS1_F0_DMA},
{"LPSS1_F1_PWM1", BIT_LPSS1_F1_PWM1},
{"LPSS1_F2_PWM2", BIT_LPSS1_F2_PWM2},
{"LPSS1_F3_HSUART1", BIT_LPSS1_F3_HSUART1},
{"LPSS1_F4_HSUART2", BIT_LPSS1_F4_HSUART2},
{"LPSS1_F5_SPI", BIT_LPSS1_F5_SPI},
{"LPSS1_F6_Reserved", BIT_LPSS1_F6_XXX},
{"LPSS1_F7_Reserved", BIT_LPSS1_F7_XXX},
{"SCC_EMMC", BIT_SCC_EMMC},
{"SCC_SDIO", BIT_SCC_SDIO},
{"SCC_SDCARD", BIT_SCC_SDCARD},
{"SCC_MIPI", BIT_SCC_MIPI},
{"HDA", BIT_HDA},
{"LPE", BIT_LPE},
{"OTG", BIT_OTG},
{"USH", BIT_USH},
{"GBE", BIT_GBE},
{"SATA", BIT_SATA},
{"USB_EHCI", BIT_USB_EHCI},
{"SEC", BIT_SEC},
{"PCIE_PORT0", BIT_PCIE_PORT0},
{"PCIE_PORT1", BIT_PCIE_PORT1},
{"PCIE_PORT2", BIT_PCIE_PORT2},
{"PCIE_PORT3", BIT_PCIE_PORT3},
{"LPSS2_F0_DMA", BIT_LPSS2_F0_DMA},
{"LPSS2_F1_I2C1", BIT_LPSS2_F1_I2C1},
{"LPSS2_F2_I2C2", BIT_LPSS2_F2_I2C2},
{"LPSS2_F3_I2C3", BIT_LPSS2_F3_I2C3},
{"LPSS2_F3_I2C4", BIT_LPSS2_F4_I2C4},
{"LPSS2_F5_I2C5", BIT_LPSS2_F5_I2C5},
{"LPSS2_F6_I2C6", BIT_LPSS2_F6_I2C6},
{"LPSS2_F7_I2C7", BIT_LPSS2_F7_I2C7},
{}
};
static struct pmc_bit_map byt_d3_sts_1_map[] = {
{"SMB", BIT_SMB},
{"OTG_SS_PHY", BIT_OTG_SS_PHY},
{"USH_SS_PHY", BIT_USH_SS_PHY},
{"DFX", BIT_DFX},
{}
};
static struct pmc_bit_map cht_d3_sts_1_map[] = {
{"SMB", BIT_SMB},
{"GMM", BIT_STS_GMM},
{"ISH", BIT_STS_ISH},
{}
};
static struct pmc_bit_map cht_func_dis_2_map[] = {
{"SMB", BIT_SMB},
{"GMM", BIT_FD_GMM},
{"ISH", BIT_FD_ISH},
{}
};
static const struct pmc_bit_map byt_pss_map[] = {
{"GBE", PMC_PSS_BIT_GBE},
{"SATA", PMC_PSS_BIT_SATA},
{"HDA", PMC_PSS_BIT_HDA},
{"SEC", PMC_PSS_BIT_SEC},
{"PCIE", PMC_PSS_BIT_PCIE},
{"LPSS", PMC_PSS_BIT_LPSS},
{"LPE", PMC_PSS_BIT_LPE},
{"DFX", PMC_PSS_BIT_DFX},
{"USH_CTRL", PMC_PSS_BIT_USH_CTRL},
{"USH_SUS", PMC_PSS_BIT_USH_SUS},
{"USH_VCCS", PMC_PSS_BIT_USH_VCCS},
{"USH_VCCA", PMC_PSS_BIT_USH_VCCA},
{"OTG_CTRL", PMC_PSS_BIT_OTG_CTRL},
{"OTG_VCCS", PMC_PSS_BIT_OTG_VCCS},
{"OTG_VCCA_CLK", PMC_PSS_BIT_OTG_VCCA_CLK},
{"OTG_VCCA", PMC_PSS_BIT_OTG_VCCA},
{"USB", PMC_PSS_BIT_USB},
{"USB_SUS", PMC_PSS_BIT_USB_SUS},
{}
};
static const struct pmc_bit_map cht_pss_map[] = {
{"SATA", PMC_PSS_BIT_SATA},
{"HDA", PMC_PSS_BIT_HDA},
{"SEC", PMC_PSS_BIT_SEC},
{"PCIE", PMC_PSS_BIT_PCIE},
{"LPSS", PMC_PSS_BIT_LPSS},
{"LPE", PMC_PSS_BIT_LPE},
{"UFS", PMC_PSS_BIT_CHT_UFS},
{"UXD", PMC_PSS_BIT_CHT_UXD},
{"UXD_FD", PMC_PSS_BIT_CHT_UXD_FD},
{"UX_ENG", PMC_PSS_BIT_CHT_UX_ENG},
{"USB_SUS", PMC_PSS_BIT_CHT_USB_SUS},
{"GMM", PMC_PSS_BIT_CHT_GMM},
{"ISH", PMC_PSS_BIT_CHT_ISH},
{"DFX_MASTER", PMC_PSS_BIT_CHT_DFX_MASTER},
{"DFX_CLUSTER1", PMC_PSS_BIT_CHT_DFX_CLUSTER1},
{"DFX_CLUSTER2", PMC_PSS_BIT_CHT_DFX_CLUSTER2},
{"DFX_CLUSTER3", PMC_PSS_BIT_CHT_DFX_CLUSTER3},
{"DFX_CLUSTER4", PMC_PSS_BIT_CHT_DFX_CLUSTER4},
{"DFX_CLUSTER5", PMC_PSS_BIT_CHT_DFX_CLUSTER5},
{}
};
static const struct pmc_reg_map byt_reg_map = {
.d3_sts_0 = d3_sts_0_map,
.d3_sts_1 = byt_d3_sts_1_map,
.func_dis = d3_sts_0_map,
.func_dis_2 = byt_d3_sts_1_map,
.pss = byt_pss_map,
};
static const struct pmc_reg_map cht_reg_map = {
.d3_sts_0 = d3_sts_0_map,
.d3_sts_1 = cht_d3_sts_1_map,
.func_dis = d3_sts_0_map,
.func_dis_2 = cht_func_dis_2_map,
.pss = cht_pss_map,
};
static const struct pmc_data byt_data = {
.map = &byt_reg_map,
.clks = byt_clks,
};
static const struct pmc_data cht_data = {
.map = &cht_reg_map,
.clks = cht_clks,
};
static inline u32 pmc_reg_read(struct pmc_dev *pmc, int reg_offset)
{
return readl(pmc->regmap + reg_offset);
}
static inline void pmc_reg_write(struct pmc_dev *pmc, int reg_offset, u32 val)
{
writel(val, pmc->regmap + reg_offset);
}
int pmc_atom_read(int offset, u32 *value)
{
struct pmc_dev *pmc = &pmc_device;
if (!pmc->init)
return -ENODEV;
*value = pmc_reg_read(pmc, offset);
return 0;
}
static void pmc_power_off(void)
{
u16 pm1_cnt_port;
u32 pm1_cnt_value;
pr_info("Preparing to enter system sleep state S5\n");
pm1_cnt_port = acpi_base_addr + PM1_CNT;
pm1_cnt_value = inl(pm1_cnt_port);
pm1_cnt_value &= ~SLEEP_TYPE_MASK;
pm1_cnt_value |= SLEEP_TYPE_S5;
pm1_cnt_value |= SLEEP_ENABLE;
outl(pm1_cnt_value, pm1_cnt_port);
}
static void pmc_hw_reg_setup(struct pmc_dev *pmc)
{
/*
* Disable PMC S0IX_WAKE_EN events coming from:
* - LPC clock run
* - GPIO_SUS ored dedicated IRQs
* - GPIO_SCORE ored dedicated IRQs
* - GPIO_SUS shared IRQ
* - GPIO_SCORE shared IRQ
*/
pmc_reg_write(pmc, PMC_S0IX_WAKE_EN, (u32)PMC_WAKE_EN_SETTING);
}
#ifdef CONFIG_DEBUG_FS
static void pmc_dev_state_print(struct seq_file *s, int reg_index,
u32 sts, const struct pmc_bit_map *sts_map,
u32 fd, const struct pmc_bit_map *fd_map)
{
int offset = PMC_REG_BIT_WIDTH * reg_index;
int index;
for (index = 0; sts_map[index].name; index++) {
seq_printf(s, "Dev: %-2d - %-32s\tState: %s [%s]\n",
offset + index, sts_map[index].name,
fd_map[index].bit_mask & fd ? "Disabled" : "Enabled ",
sts_map[index].bit_mask & sts ? "D3" : "D0");
}
}
static int pmc_dev_state_show(struct seq_file *s, void *unused)
{
struct pmc_dev *pmc = s->private;
const struct pmc_reg_map *m = pmc->map;
u32 func_dis, func_dis_2;
u32 d3_sts_0, d3_sts_1;
func_dis = pmc_reg_read(pmc, PMC_FUNC_DIS);
func_dis_2 = pmc_reg_read(pmc, PMC_FUNC_DIS_2);
d3_sts_0 = pmc_reg_read(pmc, PMC_D3_STS_0);
d3_sts_1 = pmc_reg_read(pmc, PMC_D3_STS_1);
/* Low part */
pmc_dev_state_print(s, 0, d3_sts_0, m->d3_sts_0, func_dis, m->func_dis);
/* High part */
pmc_dev_state_print(s, 1, d3_sts_1, m->d3_sts_1, func_dis_2, m->func_dis_2);
return 0;
}
DEFINE_SHOW_ATTRIBUTE(pmc_dev_state);
static int pmc_pss_state_show(struct seq_file *s, void *unused)
{
struct pmc_dev *pmc = s->private;
const struct pmc_bit_map *map = pmc->map->pss;
u32 pss = pmc_reg_read(pmc, PMC_PSS);
int index;
for (index = 0; map[index].name; index++) {
seq_printf(s, "Island: %-2d - %-32s\tState: %s\n",
index, map[index].name,
map[index].bit_mask & pss ? "Off" : "On");
}
return 0;
}
DEFINE_SHOW_ATTRIBUTE(pmc_pss_state);
static int pmc_sleep_tmr_show(struct seq_file *s, void *unused)
{
struct pmc_dev *pmc = s->private;
u64 s0ir_tmr, s0i1_tmr, s0i2_tmr, s0i3_tmr, s0_tmr;
s0ir_tmr = (u64)pmc_reg_read(pmc, PMC_S0IR_TMR) << PMC_TMR_SHIFT;
s0i1_tmr = (u64)pmc_reg_read(pmc, PMC_S0I1_TMR) << PMC_TMR_SHIFT;
s0i2_tmr = (u64)pmc_reg_read(pmc, PMC_S0I2_TMR) << PMC_TMR_SHIFT;
s0i3_tmr = (u64)pmc_reg_read(pmc, PMC_S0I3_TMR) << PMC_TMR_SHIFT;
s0_tmr = (u64)pmc_reg_read(pmc, PMC_S0_TMR) << PMC_TMR_SHIFT;
seq_printf(s, "S0IR Residency:\t%lldus\n", s0ir_tmr);
seq_printf(s, "S0I1 Residency:\t%lldus\n", s0i1_tmr);
seq_printf(s, "S0I2 Residency:\t%lldus\n", s0i2_tmr);
seq_printf(s, "S0I3 Residency:\t%lldus\n", s0i3_tmr);
seq_printf(s, "S0 Residency:\t%lldus\n", s0_tmr);
return 0;
}
DEFINE_SHOW_ATTRIBUTE(pmc_sleep_tmr);
static void pmc_dbgfs_register(struct pmc_dev *pmc)
{
struct dentry *dir;
dir = debugfs_create_dir("pmc_atom", NULL);
pmc->dbgfs_dir = dir;
debugfs_create_file("dev_state", S_IFREG | S_IRUGO, dir, pmc,
&pmc_dev_state_fops);
debugfs_create_file("pss_state", S_IFREG | S_IRUGO, dir, pmc,
&pmc_pss_state_fops);
debugfs_create_file("sleep_state", S_IFREG | S_IRUGO, dir, pmc,
&pmc_sleep_tmr_fops);
}
#else
static void pmc_dbgfs_register(struct pmc_dev *pmc)
{
}
#endif /* CONFIG_DEBUG_FS */
static bool pmc_clk_is_critical = true;
static int dmi_callback(const struct dmi_system_id *d)
{
pr_info("%s: PMC critical clocks quirk enabled\n", d->ident);
return 1;
}
static int dmi_callback_siemens(const struct dmi_system_id *d)
{
u32 st_id;
if (dmi_walk(simatic_ipc_find_dmi_entry_helper, &st_id))
goto out;
if (st_id == SIMATIC_IPC_IPC227E || st_id == SIMATIC_IPC_IPC277E)
return dmi_callback(d);
out:
pmc_clk_is_critical = false;
return 1;
}
/*
* Some systems need one or more of their pmc_plt_clks to be
* marked as critical.
*/
static const struct dmi_system_id critclk_systems[] = {
{
/* pmc_plt_clk0 is used for an external HSIC USB HUB */
.ident = "MPL CEC1x",
.callback = dmi_callback,
.matches = {
DMI_MATCH(DMI_SYS_VENDOR, "MPL AG"),
DMI_MATCH(DMI_PRODUCT_NAME, "CEC10 Family"),
},
},
{
/*
* Lex System / Lex Computech Co. makes a lot of Bay Trail
* based embedded boards which often come with multiple
* ethernet controllers using multiple pmc_plt_clks. See:
* https://www.lex.com.tw/products/embedded-ipc-board/
*/
.ident = "Lex BayTrail",
.callback = dmi_callback,
.matches = {
DMI_MATCH(DMI_SYS_VENDOR, "Lex BayTrail"),
},
},
{
/* pmc_plt_clk* - are used for ethernet controllers */
.ident = "Beckhoff Baytrail",
.callback = dmi_callback,
.matches = {
DMI_MATCH(DMI_SYS_VENDOR, "Beckhoff Automation"),
DMI_MATCH(DMI_PRODUCT_FAMILY, "CBxx63"),
},
},
{
.ident = "SIEMENS AG",
.callback = dmi_callback_siemens,
.matches = {
DMI_MATCH(DMI_SYS_VENDOR, "SIEMENS AG"),
},
},
{}
};
static int pmc_setup_clks(struct pci_dev *pdev, void __iomem *pmc_regmap,
const struct pmc_data *pmc_data)
{
struct platform_device *clkdev;
struct pmc_clk_data *clk_data;
clk_data = kzalloc(sizeof(*clk_data), GFP_KERNEL);
if (!clk_data)
return -ENOMEM;
clk_data->base = pmc_regmap; /* offset is added by client */
clk_data->clks = pmc_data->clks;
if (dmi_check_system(critclk_systems))
clk_data->critical = pmc_clk_is_critical;
clkdev = platform_device_register_data(&pdev->dev, "clk-pmc-atom",
PLATFORM_DEVID_NONE,
clk_data, sizeof(*clk_data));
if (IS_ERR(clkdev)) {
kfree(clk_data);
return PTR_ERR(clkdev);
}
kfree(clk_data);
return 0;
}
#ifdef CONFIG_SUSPEND
static void pmc_dev_state_check(u32 sts, const struct pmc_bit_map *sts_map,
u32 fd, const struct pmc_bit_map *fd_map,
u32 sts_possible_false_pos)
{
int index;
for (index = 0; sts_map[index].name; index++) {
if (!(fd_map[index].bit_mask & fd) &&
!(sts_map[index].bit_mask & sts)) {
if (sts_map[index].bit_mask & sts_possible_false_pos)
pm_pr_dbg("%s is in D0 prior to s2idle\n",
sts_map[index].name);
else
pr_err("%s is in D0 prior to s2idle\n",
sts_map[index].name);
}
}
}
static void pmc_s2idle_check(void)
{
struct pmc_dev *pmc = &pmc_device;
const struct pmc_reg_map *m = pmc->map;
u32 func_dis, func_dis_2;
u32 d3_sts_0, d3_sts_1;
u32 false_pos_sts_0, false_pos_sts_1;
int i;
func_dis = pmc_reg_read(pmc, PMC_FUNC_DIS);
func_dis_2 = pmc_reg_read(pmc, PMC_FUNC_DIS_2);
d3_sts_0 = pmc_reg_read(pmc, PMC_D3_STS_0);
d3_sts_1 = pmc_reg_read(pmc, PMC_D3_STS_1);
/*
* Some blocks are not used on lower-featured versions of the SoC and
* always report D0, add these to false_pos mask to log at debug level.
*/
if (m->d3_sts_1 == byt_d3_sts_1_map) {
/* Bay Trail */
false_pos_sts_0 = BIT_GBE | BIT_SATA | BIT_PCIE_PORT0 |
BIT_PCIE_PORT1 | BIT_PCIE_PORT2 | BIT_PCIE_PORT3 |
BIT_LPSS2_F5_I2C5;
false_pos_sts_1 = BIT_SMB | BIT_USH_SS_PHY | BIT_DFX;
} else {
/* Cherry Trail */
false_pos_sts_0 = BIT_GBE | BIT_SATA | BIT_LPSS2_F7_I2C7;
false_pos_sts_1 = BIT_SMB | BIT_STS_ISH;
}
pmc_dev_state_check(d3_sts_0, m->d3_sts_0, func_dis, m->func_dis, false_pos_sts_0);
pmc_dev_state_check(d3_sts_1, m->d3_sts_1, func_dis_2, m->func_dis_2, false_pos_sts_1);
/* Forced-on PMC clocks prevent S0i3 */
for (i = 0; i < PMC_CLK_NUM; i++) {
u32 ctl = pmc_reg_read(pmc, PMC_CLK_CTL_OFFSET + 4 * i);
if ((ctl & PMC_MASK_CLK_CTL) != PMC_CLK_CTL_FORCE_ON)
continue;
pr_err("clock %d is ON prior to freeze (ctl 0x%08x)\n", i, ctl);
}
}
static struct acpi_s2idle_dev_ops pmc_s2idle_ops = {
.check = pmc_s2idle_check,
};
static void pmc_s2idle_check_register(void)
{
acpi_register_lps0_dev(&pmc_s2idle_ops);
}
#else
static void pmc_s2idle_check_register(void) {}
#endif
static int pmc_setup_dev(struct pci_dev *pdev, const struct pci_device_id *ent)
{
struct pmc_dev *pmc = &pmc_device;
const struct pmc_data *data = (struct pmc_data *)ent->driver_data;
const struct pmc_reg_map *map = data->map;
int ret;
/* Obtain ACPI base address */
pci_read_config_dword(pdev, ACPI_BASE_ADDR_OFFSET, &acpi_base_addr);
acpi_base_addr &= ACPI_BASE_ADDR_MASK;
/* Install power off function */
if (acpi_base_addr != 0 && pm_power_off == NULL)
pm_power_off = pmc_power_off;
pci_read_config_dword(pdev, PMC_BASE_ADDR_OFFSET, &pmc->base_addr);
pmc->base_addr &= PMC_BASE_ADDR_MASK;
pmc->regmap = ioremap(pmc->base_addr, PMC_MMIO_REG_LEN);
if (!pmc->regmap) {
dev_err(&pdev->dev, "error: ioremap failed\n");
return -ENOMEM;
}
pmc->map = map;
/* PMC hardware registers setup */
pmc_hw_reg_setup(pmc);
pmc_dbgfs_register(pmc);
/* Register platform clocks - PMC_PLT_CLK [0..5] */
ret = pmc_setup_clks(pdev, pmc->regmap, data);
if (ret)
dev_warn(&pdev->dev, "platform clocks register failed: %d\n",
ret);
pmc_s2idle_check_register();
pmc->init = true;
return ret;
}
/* Data for PCI driver interface used by pci_match_id() call below */
static const struct pci_device_id pmc_pci_ids[] = {
{ PCI_VDEVICE(INTEL, PCI_DEVICE_ID_VLV_PMC), (kernel_ulong_t)&byt_data },
{ PCI_VDEVICE(INTEL, PCI_DEVICE_ID_CHT_PMC), (kernel_ulong_t)&cht_data },
{}
};
static int __init pmc_atom_init(void)
{
struct pci_dev *pdev = NULL;
const struct pci_device_id *ent;
/*
* We look for our device - PCU PMC.
* We assume that there is maximum one device.
*
* We can't use plain pci_driver mechanism,
* as the device is really a multiple function device,
* main driver that binds to the pci_device is lpc_ich
* and have to find & bind to the device this way.
*/
for_each_pci_dev(pdev) {
ent = pci_match_id(pmc_pci_ids, pdev);
if (ent)
return pmc_setup_dev(pdev, ent);
}
/* Device not found */
return -ENODEV;
}
device_initcall(pmc_atom_init);
/*
MODULE_AUTHOR("Aubrey Li <aubrey.li@linux.intel.com>");
MODULE_DESCRIPTION("Intel Atom SoC Power Management Controller Interface");
MODULE_LICENSE("GPL v2");
*/
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