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Release 4.11 drivers/cpufreq/brcmstb-avs-cpufreq.c

Directory: drivers/cpufreq
/*
 * CPU frequency scaling for Broadcom SoCs with AVS firmware that
 * supports DVS or DVFS
 *
 * Copyright (c) 2016 Broadcom
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License as
 * published by the Free Software Foundation version 2.
 *
 * This program is distributed "as is" WITHOUT ANY WARRANTY of any
 * kind, whether express or implied; without even the implied warranty
 * of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 */

/*
 * "AVS" is the name of a firmware developed at Broadcom. It derives
 * its name from the technique called "Adaptive Voltage Scaling".
 * Adaptive voltage scaling was the original purpose of this firmware.
 * The AVS firmware still supports "AVS mode", where all it does is
 * adaptive voltage scaling. However, on some newer Broadcom SoCs, the
 * AVS Firmware, despite its unchanged name, also supports DFS mode and
 * DVFS mode.
 *
 * In the context of this document and the related driver, "AVS" by
 * itself always means the Broadcom firmware and never refers to the
 * technique called "Adaptive Voltage Scaling".
 *
 * The Broadcom STB AVS CPUfreq driver provides voltage and frequency
 * scaling on Broadcom SoCs using AVS firmware with support for DFS and
 * DVFS. The AVS firmware is running on its own co-processor. The
 * driver supports both uniprocessor (UP) and symmetric multiprocessor
 * (SMP) systems which share clock and voltage across all CPUs.
 *
 * Actual voltage and frequency scaling is done solely by the AVS
 * firmware. This driver does not change frequency or voltage itself.
 * It provides a standard CPUfreq interface to the rest of the kernel
 * and to userland. It interfaces with the AVS firmware to effect the
 * requested changes and to report back the current system status in a
 * way that is expected by existing tools.
 */

#include <linux/cpufreq.h>
#include <linux/interrupt.h>
#include <linux/io.h>
#include <linux/module.h>
#include <linux/of_address.h>
#include <linux/platform_device.h>
#include <linux/semaphore.h>

#ifdef CONFIG_ARM_BRCMSTB_AVS_CPUFREQ_DEBUG
#include <linux/ctype.h>
#include <linux/debugfs.h>
#include <linux/slab.h>
#include <linux/uaccess.h>
#endif

/* Max number of arguments AVS calls take */

#define AVS_MAX_CMD_ARGS	4
/*
 * This macro is used to generate AVS parameter register offsets. For
 * x >= AVS_MAX_CMD_ARGS, it returns 0 to protect against accidental memory
 * access outside of the parameter range. (Offset 0 is the first parameter.)
 */

#define AVS_PARAM_MULT(x)	((x) < AVS_MAX_CMD_ARGS ? (x) : 0)

/* AVS Mailbox Register offsets */

#define AVS_MBOX_COMMAND	0x00

#define AVS_MBOX_STATUS		0x04

#define AVS_MBOX_VOLTAGE0	0x08

#define AVS_MBOX_TEMP0		0x0c

#define AVS_MBOX_PV0		0x10

#define AVS_MBOX_MV0		0x14

#define AVS_MBOX_PARAM(x)	(0x18 + AVS_PARAM_MULT(x) * sizeof(u32))

#define AVS_MBOX_REVISION	0x28

#define AVS_MBOX_PSTATE		0x2c

#define AVS_MBOX_HEARTBEAT	0x30

#define AVS_MBOX_MAGIC		0x34

#define AVS_MBOX_SIGMA_HVT	0x38

#define AVS_MBOX_SIGMA_SVT	0x3c

#define AVS_MBOX_VOLTAGE1	0x40

#define AVS_MBOX_TEMP1		0x44

#define AVS_MBOX_PV1		0x48

#define AVS_MBOX_MV1		0x4c

#define AVS_MBOX_FREQUENCY	0x50

/* AVS Commands */

#define AVS_CMD_AVAILABLE	0x00

#define AVS_CMD_DISABLE		0x10

#define AVS_CMD_ENABLE		0x11

#define AVS_CMD_S2_ENTER	0x12

#define AVS_CMD_S2_EXIT		0x13

#define AVS_CMD_BBM_ENTER	0x14

#define AVS_CMD_BBM_EXIT	0x15

#define AVS_CMD_S3_ENTER	0x16

#define AVS_CMD_S3_EXIT		0x17

#define AVS_CMD_BALANCE		0x18
/* PMAP and P-STATE commands */

#define AVS_CMD_GET_PMAP	0x30

#define AVS_CMD_SET_PMAP	0x31

#define AVS_CMD_GET_PSTATE	0x40

#define AVS_CMD_SET_PSTATE	0x41

/* Different modes AVS supports (for GET_PMAP/SET_PMAP) */

#define AVS_MODE_AVS		0x0

#define AVS_MODE_DFS		0x1

#define AVS_MODE_DVS		0x2

#define AVS_MODE_DVFS		0x3

/*
 * PMAP parameter p1
 * unused:31-24, mdiv_p0:23-16, unused:15-14, pdiv:13-10 , ndiv_int:9-0
 */

#define NDIV_INT_SHIFT		0

#define NDIV_INT_MASK		0x3ff

#define PDIV_SHIFT		10

#define PDIV_MASK		0xf

#define MDIV_P0_SHIFT		16

#define MDIV_P0_MASK		0xff
/*
 * PMAP parameter p2
 * mdiv_p4:31-24, mdiv_p3:23-16, mdiv_p2:15:8, mdiv_p1:7:0
 */

#define MDIV_P1_SHIFT		0

#define MDIV_P1_MASK		0xff

#define MDIV_P2_SHIFT		8

#define MDIV_P2_MASK		0xff

#define MDIV_P3_SHIFT		16

#define MDIV_P3_MASK		0xff

#define MDIV_P4_SHIFT		24

#define MDIV_P4_MASK		0xff

/* Different P-STATES AVS supports (for GET_PSTATE/SET_PSTATE) */

#define AVS_PSTATE_P0		0x0

#define AVS_PSTATE_P1		0x1

#define AVS_PSTATE_P2		0x2

#define AVS_PSTATE_P3		0x3

#define AVS_PSTATE_P4		0x4

#define AVS_PSTATE_MAX		AVS_PSTATE_P4

/* CPU L2 Interrupt Controller Registers */

#define AVS_CPU_L2_SET0		0x04

#define AVS_CPU_L2_INT_MASK	BIT(31)

/* AVS Command Status Values */

#define AVS_STATUS_CLEAR	0x00
/* Command/notification accepted */

#define AVS_STATUS_SUCCESS	0xf0
/* Command/notification rejected */

#define AVS_STATUS_FAILURE	0xff
/* Invalid command/notification (unknown) */

#define AVS_STATUS_INVALID	0xf1
/* Non-AVS modes are not supported */

#define AVS_STATUS_NO_SUPP	0xf2
/* Cannot set P-State until P-Map supplied */

#define AVS_STATUS_NO_MAP	0xf3
/* Cannot change P-Map after initial P-Map set */

#define AVS_STATUS_MAP_SET	0xf4
/* Max AVS status; higher numbers are used for debugging */

#define AVS_STATUS_MAX		0xff

/* Other AVS related constants */

#define AVS_LOOP_LIMIT		10000

#define AVS_TIMEOUT		300 
/* in ms; expected completion is < 10ms */

#define AVS_FIRMWARE_MAGIC	0xa11600d1


#define BRCM_AVS_CPUFREQ_PREFIX	"brcmstb-avs"

#define BRCM_AVS_CPUFREQ_NAME	BRCM_AVS_CPUFREQ_PREFIX "-cpufreq"

#define BRCM_AVS_CPU_DATA	"brcm,avs-cpu-data-mem"

#define BRCM_AVS_CPU_INTR	"brcm,avs-cpu-l2-intr"

#define BRCM_AVS_HOST_INTR	"sw_intr"


struct pmap {
	
unsigned int mode;
	
unsigned int p1;
	
unsigned int p2;
	
unsigned int state;
};


struct private_data {
	
void __iomem *base;
	
void __iomem *avs_intr_base;
	
struct device *dev;
#ifdef CONFIG_ARM_BRCMSTB_AVS_CPUFREQ_DEBUG
	
struct dentry *debugfs;
#endif
	
struct completion done;
	
struct semaphore sem;
	
struct pmap pmap;
};

#ifdef CONFIG_ARM_BRCMSTB_AVS_CPUFREQ_DEBUG


enum debugfs_format {
	
DEBUGFS_NORMAL,
	
DEBUGFS_FLOAT,
	
DEBUGFS_REV,
};


struct debugfs_data {
	
struct debugfs_entry *entry;
	
struct private_data *priv;
};


struct debugfs_entry {
	
char *name;
	
u32 offset;
	
fmode_t mode;
	
enum debugfs_format format;
};


#define DEBUGFS_ENTRY(name, mode, format)	{ \
        #name, AVS_MBOX_##name, mode, format \
}

/*
 * These are used for debugfs only. Otherwise we use AVS_MBOX_PARAM() directly.
 */

#define AVS_MBOX_PARAM1		AVS_MBOX_PARAM(0)

#define AVS_MBOX_PARAM2		AVS_MBOX_PARAM(1)

#define AVS_MBOX_PARAM3		AVS_MBOX_PARAM(2)

#define AVS_MBOX_PARAM4		AVS_MBOX_PARAM(3)

/*
 * This table stores the name, access permissions and offset for each hardware
 * register and is used to generate debugfs entries.
 */

static struct debugfs_entry debugfs_entries[] = {
	DEBUGFS_ENTRY(COMMAND, S_IWUSR, DEBUGFS_NORMAL),
	DEBUGFS_ENTRY(STATUS, S_IWUSR, DEBUGFS_NORMAL),
	DEBUGFS_ENTRY(VOLTAGE0, 0, DEBUGFS_FLOAT),
	DEBUGFS_ENTRY(TEMP0, 0, DEBUGFS_FLOAT),
	DEBUGFS_ENTRY(PV0, 0, DEBUGFS_FLOAT),
	DEBUGFS_ENTRY(MV0, 0, DEBUGFS_FLOAT),
	DEBUGFS_ENTRY(PARAM1, S_IWUSR, DEBUGFS_NORMAL),
	DEBUGFS_ENTRY(PARAM2, S_IWUSR, DEBUGFS_NORMAL),
	DEBUGFS_ENTRY(PARAM3, S_IWUSR, DEBUGFS_NORMAL),
	DEBUGFS_ENTRY(PARAM4, S_IWUSR, DEBUGFS_NORMAL),
	DEBUGFS_ENTRY(REVISION, 0, DEBUGFS_REV),
	DEBUGFS_ENTRY(PSTATE, 0, DEBUGFS_NORMAL),
	DEBUGFS_ENTRY(HEARTBEAT, 0, DEBUGFS_NORMAL),
	DEBUGFS_ENTRY(MAGIC, S_IWUSR, DEBUGFS_NORMAL),
	DEBUGFS_ENTRY(SIGMA_HVT, 0, DEBUGFS_NORMAL),
	DEBUGFS_ENTRY(SIGMA_SVT, 0, DEBUGFS_NORMAL),
	DEBUGFS_ENTRY(VOLTAGE1, 0, DEBUGFS_FLOAT),
	DEBUGFS_ENTRY(TEMP1, 0, DEBUGFS_FLOAT),
	DEBUGFS_ENTRY(PV1, 0, DEBUGFS_FLOAT),
	DEBUGFS_ENTRY(MV1, 0, DEBUGFS_FLOAT),
	DEBUGFS_ENTRY(FREQUENCY, 0, DEBUGFS_NORMAL),
};

static int brcm_avs_target_index(struct cpufreq_policy *, unsigned int);


static char *__strtolower(char *s) { char *p; for (p = s; *p; p++) *p = tolower(*p); return s; }

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#endif /* CONFIG_ARM_BRCMSTB_AVS_CPUFREQ_DEBUG */
static void __iomem *__map_region(const char *name) { struct device_node *np; void __iomem *ptr; np = of_find_compatible_node(NULL, NULL, name); if (!np) return NULL; ptr = of_iomap(np, 0); of_node_put(np); return ptr; }

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static int __issue_avs_command(struct private_data *priv, int cmd, bool is_send, u32 args[]) { unsigned long time_left = msecs_to_jiffies(AVS_TIMEOUT); void __iomem *base = priv->base; unsigned int i; int ret; u32 val; ret = down_interruptible(&priv->sem); if (ret) return ret; /* * Make sure no other command is currently running: cmd is 0 if AVS * co-processor is idle. Due to the guard above, we should almost never * have to wait here. */ for (i = 0, val = 1; val != 0 && i < AVS_LOOP_LIMIT; i++) val = readl(base + AVS_MBOX_COMMAND); /* Give the caller a chance to retry if AVS is busy. */ if (i == AVS_LOOP_LIMIT) { ret = -EAGAIN; goto out; } /* Clear status before we begin. */ writel(AVS_STATUS_CLEAR, base + AVS_MBOX_STATUS); /* We need to send arguments for this command. */ if (args && is_send) { for (i = 0; i < AVS_MAX_CMD_ARGS; i++) writel(args[i], base + AVS_MBOX_PARAM(i)); } /* Protect from spurious interrupts. */ reinit_completion(&priv->done); /* Now issue the command & tell firmware to wake up to process it. */ writel(cmd, base + AVS_MBOX_COMMAND); writel(AVS_CPU_L2_INT_MASK, priv->avs_intr_base + AVS_CPU_L2_SET0); /* Wait for AVS co-processor to finish processing the command. */ time_left = wait_for_completion_timeout(&priv->done, time_left); /* * If the AVS status is not in the expected range, it means AVS didn't * complete our command in time, and we return an error. Also, if there * is no "time left", we timed out waiting for the interrupt. */ val = readl(base + AVS_MBOX_STATUS); if (time_left == 0 || val == 0 || val > AVS_STATUS_MAX) { dev_err(priv->dev, "AVS command %#x didn't complete in time\n", cmd); dev_err(priv->dev, " Time left: %u ms, AVS status: %#x\n", jiffies_to_msecs(time_left), val); ret = -ETIMEDOUT; goto out; } /* This command returned arguments, so we read them back. */ if (args && !is_send) { for (i = 0; i < AVS_MAX_CMD_ARGS; i++) args[i] = readl(base + AVS_MBOX_PARAM(i)); } /* Clear status to tell AVS co-processor we are done. */ writel(AVS_STATUS_CLEAR, base + AVS_MBOX_STATUS); /* Convert firmware errors to errno's as much as possible. */ switch (val) { case AVS_STATUS_INVALID: ret = -EINVAL; break; case AVS_STATUS_NO_SUPP: ret = -ENOTSUPP; break; case AVS_STATUS_NO_MAP: ret = -ENOENT; break; case AVS_STATUS_MAP_SET: ret = -EEXIST; break; case AVS_STATUS_FAILURE: ret = -EIO; break; } out: up(&priv->sem); return ret; }

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static irqreturn_t irq_handler(int irq, void *data) { struct private_data *priv = data; /* AVS command completed execution. Wake up __issue_avs_command(). */ complete(&priv->done); return IRQ_HANDLED; }

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static char *brcm_avs_mode_to_string(unsigned int mode) { switch (mode) { case AVS_MODE_AVS: return "AVS"; case AVS_MODE_DFS: return "DFS"; case AVS_MODE_DVS: return "DVS"; case AVS_MODE_DVFS: return "DVFS"; } return NULL; }

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static void brcm_avs_parse_p1(u32 p1, unsigned int *mdiv_p0, unsigned int *pdiv, unsigned int *ndiv) { *mdiv_p0 = (p1 >> MDIV_P0_SHIFT) & MDIV_P0_MASK; *pdiv = (p1 >> PDIV_SHIFT) & PDIV_MASK; *ndiv = (p1 >> NDIV_INT_SHIFT) & NDIV_INT_MASK; }

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static void brcm_avs_parse_p2(u32 p2, unsigned int *mdiv_p1, unsigned int *mdiv_p2, unsigned int *mdiv_p3, unsigned int *mdiv_p4) { *mdiv_p4 = (p2 >> MDIV_P4_SHIFT) & MDIV_P4_MASK; *mdiv_p3 = (p2 >> MDIV_P3_SHIFT) & MDIV_P3_MASK; *mdiv_p2 = (p2 >> MDIV_P2_SHIFT) & MDIV_P2_MASK; *mdiv_p1 = (p2 >> MDIV_P1_SHIFT) & MDIV_P1_MASK; }

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static int brcm_avs_get_pmap(struct private_data *priv, struct pmap *pmap) { u32 args[AVS_MAX_CMD_ARGS]; int ret; ret = __issue_avs_command(priv, AVS_CMD_GET_PMAP, false, args); if (ret || !pmap) return ret; pmap->mode = args[0]; pmap->p1 = args[1]; pmap->p2 = args[2]; pmap->state = args[3]; return 0; }

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static int brcm_avs_set_pmap(struct private_data *priv, struct pmap *pmap) { u32 args[AVS_MAX_CMD_ARGS]; args[0] = pmap->mode; args[1] = pmap->p1; args[2] = pmap->p2; args[3] = pmap->state; return __issue_avs_command(priv, AVS_CMD_SET_PMAP, true, args); }

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static int brcm_avs_get_pstate(struct private_data *priv, unsigned int *pstate) { u32 args[AVS_MAX_CMD_ARGS]; int ret; ret = __issue_avs_command(priv, AVS_CMD_GET_PSTATE, false, args); if (ret) return ret; *pstate = args[0]; return 0; }

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static int brcm_avs_set_pstate(struct private_data *priv, unsigned int pstate) { u32 args[AVS_MAX_CMD_ARGS]; args[0] = pstate; return __issue_avs_command(priv, AVS_CMD_SET_PSTATE, true, args); }

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static unsigned long brcm_avs_get_voltage(void __iomem *base) { return readl(base + AVS_MBOX_VOLTAGE1); }

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static unsigned long brcm_avs_get_frequency(void __iomem *base) { return readl(base + AVS_MBOX_FREQUENCY) * 1000; /* in kHz */ }

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/* * We determine which frequencies are supported by cycling through all P-states * and reading back what frequency we are running at for each P-state. */
static struct cpufreq_frequency_table * brcm_avs_get_freq_table(struct device *dev, struct private_data *priv) { struct cpufreq_frequency_table *table; unsigned int pstate; int i, ret; /* Remember P-state for later */ ret = brcm_avs_get_pstate(priv, &pstate); if (ret) return ERR_PTR(ret); table = devm_kzalloc(dev, (AVS_PSTATE_MAX + 1) * sizeof(*table), GFP_KERNEL); if (!table) return ERR_PTR(-ENOMEM); for (i = AVS_PSTATE_P0; i <= AVS_PSTATE_MAX; i++) { ret = brcm_avs_set_pstate(priv, i); if (ret) return ERR_PTR(ret); table[i].frequency = brcm_avs_get_frequency(priv->base); table[i].driver_data = i; } table[i].frequency = CPUFREQ_TABLE_END; /* Restore P-state */ ret = brcm_avs_set_pstate(priv, pstate); if (ret) return ERR_PTR(ret); return table; }

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#ifdef CONFIG_ARM_BRCMSTB_AVS_CPUFREQ_DEBUG #define MANT(x) (unsigned int)(abs((x)) / 1000) #define FRAC(x) (unsigned int)(abs((x)) - abs((x)) / 1000 * 1000)
static int brcm_avs_debug_show(struct seq_file *s, void *data) { struct debugfs_data *dbgfs = s->private; void __iomem *base; u32 val, offset; if (!dbgfs) { seq_puts(s, "No device pointer\n"); return 0; } base = dbgfs->priv->base; offset = dbgfs->entry->offset; val = readl(base + offset); switch (dbgfs->entry->format) { case DEBUGFS_NORMAL: seq_printf(s, "%u\n", val); break; case DEBUGFS_FLOAT: seq_printf(s, "%d.%03d\n", MANT(val), FRAC(val)); break; case DEBUGFS_REV: seq_printf(s, "%c.%c.%c.%c\n", (val >> 24 & 0xff), (val >> 16 & 0xff), (val >> 8 & 0xff), val & 0xff); break; } seq_printf(s, "0x%08x\n", val); return 0; }

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#undef MANT #undef FRAC
static ssize_t brcm_avs_seq_write(struct file *file, const char __user *buf, size_t size, loff_t *ppos) { struct seq_file *s = file->private_data; struct debugfs_data *dbgfs = s->private; struct private_data *priv = dbgfs->priv; void __iomem *base, *avs_intr_base; bool use_issue_command = false; unsigned long val, offset; char str[128]; int ret; char *str_ptr = str; if (size >= sizeof(str)) return -E2BIG; memset(str, 0, sizeof(str)); ret = copy_from_user(str, buf, size); if (ret) return ret; base = priv->base; avs_intr_base = priv->avs_intr_base; offset = dbgfs->entry->offset; /* * Special case writing to "command" entry only: if the string starts * with a 'c', we use the driver's __issue_avs_command() function. * Otherwise, we perform a raw write. This should allow testing of raw * access as well as using the higher level function. (Raw access * doesn't clear the firmware return status after issuing the command.) */ if (str_ptr[0] == 'c' && offset == AVS_MBOX_COMMAND) { use_issue_command = true; str_ptr++; } if (kstrtoul(str_ptr, 0, &val) != 0) return -EINVAL; /* * Setting the P-state is a special case. We need to update the CPU * frequency we report. */ if (val == AVS_CMD_SET_PSTATE) { struct cpufreq_policy *policy; unsigned int pstate; policy = cpufreq_cpu_get(smp_processor_id()); /* Read back the P-state we are about to set */ pstate = readl(base + AVS_MBOX_PARAM(0)); if (use_issue_command) { ret = brcm_avs_target_index(policy, pstate); return ret ? ret : size; } policy->cur = policy->freq_table[pstate].frequency; } if (use_issue_command) { ret = __issue_avs_command(priv, val, false, NULL); } else { /* Locking here is not perfect, but is only for debug. */ ret = down_interruptible(&priv->sem); if (ret) return ret; writel(val, base + offset); /* We have to wake up the firmware to process a command. */ if (offset == AVS_MBOX_COMMAND) writel(AVS_CPU_L2_INT_MASK, avs_intr_base + AVS_CPU_L2_SET0); up(&priv->sem); } return ret ? ret : size; }

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static struct debugfs_entry *__find_debugfs_entry(const char *name) { int i; for (i = 0; i < ARRAY_SIZE(debugfs_entries); i++) if (strcasecmp(debugfs_entries[i].name, name) == 0) return &debugfs_entries[i]; return NULL; }

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static int brcm_avs_debug_open(struct inode *inode, struct file *file) { struct debugfs_data *data; fmode_t fmode; int ret; /* * seq_open(), which is called by single_open(), clears "write" access. * We need write access to some files, so we preserve our access mode * and restore it. */ fmode = file->f_mode; /* * Check access permissions even for root. We don't want to be writing * to read-only registers. Access for regular users has already been * checked by the VFS layer. */ if ((fmode & FMODE_WRITER) && !(inode->i_mode & S_IWUSR)) return -EACCES; data = kmalloc(sizeof(*data), GFP_KERNEL); if (!data) return -ENOMEM; /* * We use the same file system operations for all our debug files. To * produce specific output, we look up the file name upon opening a * debugfs entry and map it to a memory offset. This offset is then used * in the generic "show" function to read a specific register. */ data->entry = __find_debugfs_entry(file->f_path.dentry->d_iname); data->priv = inode->i_private; ret = single_open(file, brcm_avs_debug_show, data); if (ret) kfree(data); file->f_mode = fmode; return ret; }

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static int brcm_avs_debug_release(struct inode *inode, struct file *file) { struct seq_file *seq_priv = file->private_data; struct debugfs_data *data = seq_priv->private; kfree(data); return single_release(inode, file); }

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static const struct file_operations brcm_avs_debug_ops = { .open = brcm_avs_debug_open, .read = seq_read, .write = brcm_avs_seq_write, .llseek = seq_lseek, .release = brcm_avs_debug_release, };
static void brcm_avs_cpufreq_debug_init(struct platform_device *pdev) { struct private_data *priv = platform_get_drvdata(pdev); struct dentry *dir; int i; if (!priv) return; dir = debugfs_create_dir(BRCM_AVS_CPUFREQ_NAME, NULL); if (IS_ERR_OR_NULL(dir)) return; priv->debugfs = dir; for (i = 0; i < ARRAY_SIZE(debugfs_entries); i++) { /* * The DEBUGFS_ENTRY macro generates uppercase strings. We * convert them to lowercase before creating the debugfs * entries. */ char *entry = __strtolower(debugfs_entries[i].name); fmode_t mode = debugfs_entries[i].mode; if (!debugfs_create_file(entry, S_IFREG | S_IRUGO | mode, dir, priv, &brcm_avs_debug_ops)) { priv->debugfs = NULL; debugfs_remove_recursive(dir); break; } } }

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static void brcm_avs_cpufreq_debug_exit(struct platform_device *pdev) { struct private_data *priv = platform_get_drvdata(pdev); if (priv && priv->debugfs) { debugfs_remove_recursive(priv->debugfs); priv->debugfs = NULL; } }

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#else
static void brcm_avs_cpufreq_debug_init(struct platform_device *pdev) {}

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static void brcm_avs_cpufreq_debug_exit(struct platform_device *pdev) {}

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#endif /* CONFIG_ARM_BRCMSTB_AVS_CPUFREQ_DEBUG */ /* * To ensure the right firmware is running we need to * - check the MAGIC matches what we expect * - brcm_avs_get_pmap() doesn't return -ENOTSUPP or -EINVAL * We need to set up our interrupt handling before calling brcm_avs_get_pmap()! */
static bool brcm_avs_is_firmware_loaded(struct private_data *priv) { u32 magic; int rc; rc = brcm_avs_get_pmap(priv, NULL); magic = readl(priv->base + AVS_MBOX_MAGIC); return (magic == AVS_FIRMWARE_MAGIC) && (rc != -ENOTSUPP) && (rc != -EINVAL); }

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static unsigned int brcm_avs_cpufreq_get(unsigned int cpu) { struct cpufreq_policy *policy = cpufreq_cpu_get(cpu); struct private_data *priv = policy->driver_data; return brcm_avs_get_frequency(priv->base); }

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static int brcm_avs_target_index(struct cpufreq_policy *policy, unsigned int index) { return brcm_avs_set_pstate(policy->driver_data, policy->freq_table[index].driver_data); }

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static int brcm_avs_suspend(struct cpufreq_policy *policy) { struct private_data *priv = policy->driver_data; int ret; ret = brcm_avs_get_pmap(priv, &priv->pmap); if (ret) return ret; /* * We can't use the P-state returned by brcm_avs_get_pmap(), since * that's the initial P-state from when the P-map was downloaded to the * AVS co-processor, not necessarily the P-state we are running at now. * So, we get the current P-state explicitly. */ return brcm_avs_get_pstate(priv, &priv->pmap.state); }

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static int brcm_avs_resume(struct cpufreq_policy *policy) { struct private_data *priv = policy->driver_data; int ret; ret = brcm_avs_set_pmap(priv, &priv->pmap); if (ret == -EEXIST) { struct platform_device *pdev = cpufreq_get_driver_data(); struct device *dev = &pdev->dev; dev_warn(dev, "PMAP was already set\n"); ret = 0; } return ret; }

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/* * All initialization code that we only want to execute once goes here. Setup * code that can be re-tried on every core (if it failed before) can go into * brcm_avs_cpufreq_init(). */
static int brcm_avs_prepare_init(struct platform_device *pdev) { struct private_data *priv; struct device *dev; int host_irq, ret; dev = &pdev->dev; priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL); if (!priv) return -ENOMEM; priv->dev = dev; sema_init(&priv->sem, 1); init_completion(&priv->done); platform_set_drvdata(pdev, priv); priv->base = __map_region(BRCM_AVS_CPU_DATA); if (!priv->base) { dev_err(dev, "Couldn't find property %s in device tree.\n", BRCM_AVS_CPU_DATA); return -ENOENT; } priv->avs_intr_base = __map_region(BRCM_AVS_CPU_INTR); if (!priv->avs_intr_base) { dev_err(dev, "Couldn't find property %s in device tree.\n", BRCM_AVS_CPU_INTR); ret = -ENOENT; goto unmap_base; } host_irq = platform_get_irq_byname(pdev, BRCM_AVS_HOST_INTR); if (host_irq < 0) { dev_err(dev, "Couldn't find interrupt %s -- %d\n", BRCM_AVS_HOST_INTR, host_irq); ret = host_irq; goto unmap_intr_base; } ret = devm_request_irq(dev, host_irq, irq_handler, IRQF_TRIGGER_RISING, BRCM_AVS_HOST_INTR, priv); if (ret) { dev_err(dev, "IRQ request failed: %s (%d) -- %d\n", BRCM_AVS_HOST_INTR, host_irq, ret); goto unmap_intr_base; } if (brcm_avs_is_firmware_loaded(priv)) return 0; dev_err(dev, "AVS firmware is not loaded or doesn't support DVFS\n"); ret = -ENODEV; unmap_intr_base: iounmap(priv->avs_intr_base); unmap_base: iounmap(priv->base); return ret; }

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static int brcm_avs_cpufreq_init(struct cpufreq_policy *policy) { struct cpufreq_frequency_table *freq_table; struct platform_device *pdev; struct private_data *priv; struct device *dev; int ret; pdev = cpufreq_get_driver_data(); priv = platform_get_drvdata(pdev); policy->driver_data = priv; dev = &pdev->dev; freq_table = brcm_avs_get_freq_table(dev, priv); if (IS_ERR(freq_table)) { ret = PTR_ERR(freq_table); dev_err(dev, "Couldn't determine frequency table (%d).\n", ret); return ret; } ret = cpufreq_table_validate_and_show(policy, freq_table); if (ret) { dev_err(dev, "invalid frequency table: %d\n", ret); return ret; } /* All cores share the same clock and thus the same policy. */ cpumask_setall(policy->cpus); ret = __issue_avs_command(priv, AVS_CMD_ENABLE, false, NULL); if (!ret) { unsigned int pstate; ret = brcm_avs_get_pstate(priv, &pstate); if (!ret) { policy->cur = freq_table[pstate].frequency; dev_info(dev, "registered\n"); return 0; } } dev_err(dev, "couldn't initialize driver (%d)\n", ret); return ret; }

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static ssize_t show_brcm_avs_pstate(struct cpufreq_policy *policy, char *buf) { struct private_data *priv = policy->driver_data; unsigned int pstate; if (brcm_avs_get_pstate(priv, &pstate)) return sprintf(buf, "<unknown>\n"); return sprintf(buf, "%u\n", pstate); }

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static ssize_t show_brcm_avs_mode(struct cpufreq_policy *policy, char *buf) { struct private_data *priv = policy->driver_data; struct pmap pmap; if (brcm_avs_get_pmap(priv, &pmap)) return sprintf(buf, "<unknown>\n"); return sprintf(buf, "%s %u\n", brcm_avs_mode_to_string(pmap.mode), pmap.mode); }

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static ssize_t show_brcm_avs_pmap(struct cpufreq_policy *policy, char *buf) { unsigned int mdiv_p0, mdiv_p1, mdiv_p2, mdiv_p3, mdiv_p4; struct private_data *priv = policy->driver_data; unsigned int ndiv, pdiv; struct pmap pmap; if (brcm_avs_get_pmap(priv, &pmap)) return sprintf(buf, "<unknown>\n"); brcm_avs_parse_p1(pmap.p1, &mdiv_p0, &pdiv, &ndiv); brcm_avs_parse_p2(pmap.p2, &mdiv_p1, &mdiv_p2, &mdiv_p3, &mdiv_p4); return sprintf(buf, "0x%08x 0x%08x %u %u %u %u %u %u %u %u %u\n", pmap.p1, pmap.p2, ndiv, pdiv, mdiv_p0, mdiv_p1, mdiv_p2, mdiv_p3, mdiv_p4, pmap.mode, pmap.state); }

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static ssize_t show_brcm_avs_voltage(struct cpufreq_policy *policy, char *buf) { struct private_data *priv = policy->driver_data; return sprintf(buf, "0x%08lx\n", brcm_avs_get_voltage(priv->base)); }

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static ssize_t show_brcm_avs_frequency(struct cpufreq_policy *policy, char *buf) { struct private_data *priv = policy->driver_data; return sprintf(buf, "0x%08lx\n", brcm_avs_get_frequency(priv->base)); }

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cpufreq_freq_attr_ro(brcm_avs_pstate); cpufreq_freq_attr_ro(brcm_avs_mode); cpufreq_freq_attr_ro(brcm_avs_pmap); cpufreq_freq_attr_ro(brcm_avs_voltage); cpufreq_freq_attr_ro(brcm_avs_frequency); static struct freq_attr *brcm_avs_cpufreq_attr[] = { &cpufreq_freq_attr_scaling_available_freqs, &brcm_avs_pstate, &brcm_avs_mode, &brcm_avs_pmap, &brcm_avs_voltage, &brcm_avs_frequency, NULL }; static struct cpufreq_driver brcm_avs_driver = { .flags = CPUFREQ_NEED_INITIAL_FREQ_CHECK, .verify = cpufreq_generic_frequency_table_verify, .target_index = brcm_avs_target_index, .get = brcm_avs_cpufreq_get, .suspend = brcm_avs_suspend, .resume = brcm_avs_resume, .init = brcm_avs_cpufreq_init, .attr = brcm_avs_cpufreq_attr, .name = BRCM_AVS_CPUFREQ_PREFIX, };
static int brcm_avs_cpufreq_probe(struct platform_device *pdev) { int ret; ret = brcm_avs_prepare_init(pdev); if (ret) return ret; brcm_avs_driver.driver_data = pdev; ret = cpufreq_register_driver(&brcm_avs_driver); if (!ret) brcm_avs_cpufreq_debug_init(pdev); return ret; }

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static int brcm_avs_cpufreq_remove(struct platform_device *pdev) { struct private_data *priv; int ret; ret = cpufreq_unregister_driver(&brcm_avs_driver); if (ret) return ret; brcm_avs_cpufreq_debug_exit(pdev); priv = platform_get_drvdata(pdev); iounmap(priv->base); iounmap(priv->avs_intr_base); return 0; }

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static const struct of_device_id brcm_avs_cpufreq_match[] = { { .compatible = BRCM_AVS_CPU_DATA }, { } }; MODULE_DEVICE_TABLE(of, brcm_avs_cpufreq_match); static struct platform_driver brcm_avs_cpufreq_platdrv = { .driver = { .name = BRCM_AVS_CPUFREQ_NAME, .of_match_table = brcm_avs_cpufreq_match, }, .probe = brcm_avs_cpufreq_probe, .remove = brcm_avs_cpufreq_remove, }; module_platform_driver(brcm_avs_cpufreq_platdrv); MODULE_AUTHOR("Markus Mayer <mmayer@broadcom.com>"); MODULE_DESCRIPTION("CPUfreq driver for Broadcom STB AVS"); MODULE_LICENSE("GPL");

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Directory: drivers/cpufreq
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