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    Subjectstaging/dream: add gpio and pmem support

    This adds generic_gpio and pmem support, both are needed for other
    dream drivers.

    Signed-off-by: Pavel Machek <pavel@ucw.cz>

    diff --git a/drivers/staging/dream/generic_gpio.c b/drivers/staging/dream/generic_gpio.c
    new file mode 100644
    index 0000000..fe24d38
    --- /dev/null
    +++ b/drivers/staging/dream/generic_gpio.c
    @@ -0,0 +1,274 @@
    +/* arch/arm/mach-msm/generic_gpio.c
    + *
    + * Copyright (C) 2007 Google, Inc.
    + *
    + * This software is licensed under the terms of the GNU General Public
    + * License version 2, as published by the Free Software Foundation, and
    + * may be copied, distributed, and modified under those terms.
    + *
    + * This program is distributed in the hope that 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/kernel.h>
    +#include <linux/module.h>
    +#include <linux/errno.h>
    +#include <linux/slab.h>
    +#include <linux/spinlock.h>
    +#include <asm/gpio.h>
    +#include "gpio_chip.h"
    +
    +#define GPIO_NUM_TO_CHIP_INDEX(gpio) ((gpio)>>5)
    +
    +struct gpio_state {
    + unsigned long flags;
    + int refcount;
    +};
    +
    +static DEFINE_SPINLOCK(gpio_chips_lock);
    +static LIST_HEAD(gpio_chip_list);
    +static struct gpio_chip **gpio_chip_array;
    +static unsigned long gpio_chip_array_size;
    +
    +int register_gpio_chip(struct gpio_chip *new_gpio_chip)
    +{
    + int err = 0;
    + struct gpio_chip *gpio_chip;
    + int i;
    + unsigned long irq_flags;
    + unsigned int chip_array_start_index, chip_array_end_index;
    +
    + new_gpio_chip->state = kzalloc((new_gpio_chip->end + 1 - new_gpio_chip->start) * sizeof(new_gpio_chip->state[0]), GFP_KERNEL);
    + if (new_gpio_chip->state == NULL) {
    + printk(KERN_ERR "register_gpio_chip: failed to allocate state\n");
    + return -ENOMEM;
    + }
    +
    + spin_lock_irqsave(&gpio_chips_lock, irq_flags);
    + chip_array_start_index = GPIO_NUM_TO_CHIP_INDEX(new_gpio_chip->start);
    + chip_array_end_index = GPIO_NUM_TO_CHIP_INDEX(new_gpio_chip->end);
    + if (chip_array_end_index >= gpio_chip_array_size) {
    + struct gpio_chip **new_gpio_chip_array;
    + unsigned long new_gpio_chip_array_size = chip_array_end_index + 1;
    +
    + new_gpio_chip_array = kmalloc(new_gpio_chip_array_size * sizeof(new_gpio_chip_array[0]), GFP_ATOMIC);
    + if (new_gpio_chip_array == NULL) {
    + printk(KERN_ERR "register_gpio_chip: failed to allocate array\n");
    + err = -ENOMEM;
    + goto failed;
    + }
    + for (i = 0; i < gpio_chip_array_size; i++)
    + new_gpio_chip_array[i] = gpio_chip_array[i];
    + for (i = gpio_chip_array_size; i < new_gpio_chip_array_size; i++)
    + new_gpio_chip_array[i] = NULL;
    + gpio_chip_array = new_gpio_chip_array;
    + gpio_chip_array_size = new_gpio_chip_array_size;
    + }
    + list_for_each_entry(gpio_chip, &gpio_chip_list, list) {
    + if (gpio_chip->start > new_gpio_chip->end) {
    + list_add_tail(&new_gpio_chip->list, &gpio_chip->list);
    + goto added;
    + }
    + if (gpio_chip->end >= new_gpio_chip->start) {
    + printk(KERN_ERR "register_gpio_source %u-%u overlaps with %u-%u\n",
    + new_gpio_chip->start, new_gpio_chip->end,
    + gpio_chip->start, gpio_chip->end);
    + err = -EBUSY;
    + goto failed;
    + }
    + }
    + list_add_tail(&new_gpio_chip->list, &gpio_chip_list);
    +added:
    + for (i = chip_array_start_index; i <= chip_array_end_index; i++) {
    + if (gpio_chip_array[i] == NULL || gpio_chip_array[i]->start > new_gpio_chip->start)
    + gpio_chip_array[i] = new_gpio_chip;
    + }
    +failed:
    + spin_unlock_irqrestore(&gpio_chips_lock, irq_flags);
    + if (err)
    + kfree(new_gpio_chip->state);
    + return err;
    +}
    +
    +static struct gpio_chip *get_gpio_chip_locked(unsigned int gpio)
    +{
    + unsigned long i;
    + struct gpio_chip *chip;
    +
    + i = GPIO_NUM_TO_CHIP_INDEX(gpio);
    + if (i >= gpio_chip_array_size)
    + return NULL;
    + chip = gpio_chip_array[i];
    + if (chip == NULL)
    + return NULL;
    + list_for_each_entry_from(chip, &gpio_chip_list, list) {
    + if (gpio < chip->start)
    + return NULL;
    + if (gpio <= chip->end)
    + return chip;
    + }
    + return NULL;
    +}
    +
    +static int request_gpio(unsigned int gpio, unsigned long flags)
    +{
    + int err = 0;
    + struct gpio_chip *chip;
    + unsigned long irq_flags;
    + unsigned long chip_index;
    +
    + spin_lock_irqsave(&gpio_chips_lock, irq_flags);
    + chip = get_gpio_chip_locked(gpio);
    + if (chip == NULL) {
    + err = -EINVAL;
    + goto err;
    + }
    + chip_index = gpio - chip->start;
    + if (chip->state[chip_index].refcount == 0) {
    + chip->configure(chip, gpio, flags);
    + chip->state[chip_index].flags = flags;
    + chip->state[chip_index].refcount++;
    + } else if ((flags & IRQF_SHARED) && (chip->state[chip_index].flags & IRQF_SHARED))
    + chip->state[chip_index].refcount++;
    + else
    + err = -EBUSY;
    +err:
    + spin_unlock_irqrestore(&gpio_chips_lock, irq_flags);
    + return err;
    +}
    +
    +int gpio_request(unsigned gpio, const char *label)
    +{
    + return request_gpio(gpio, 0);
    +}
    +EXPORT_SYMBOL(gpio_request);
    +
    +void gpio_free(unsigned gpio)
    +{
    + struct gpio_chip *chip;
    + unsigned long irq_flags;
    + unsigned long chip_index;
    +
    + spin_lock_irqsave(&gpio_chips_lock, irq_flags);
    + chip = get_gpio_chip_locked(gpio);
    + if (chip) {
    + chip_index = gpio - chip->start;
    + chip->state[chip_index].refcount--;
    + }
    + spin_unlock_irqrestore(&gpio_chips_lock, irq_flags);
    +}
    +EXPORT_SYMBOL(gpio_free);
    +
    +static int gpio_get_irq_num(unsigned int gpio, unsigned int *irqp, unsigned long *irqnumflagsp)
    +{
    + int ret = -ENOTSUPP;
    + struct gpio_chip *chip;
    + unsigned long irq_flags;
    +
    + spin_lock_irqsave(&gpio_chips_lock, irq_flags);
    + chip = get_gpio_chip_locked(gpio);
    + if (chip && chip->get_irq_num)
    + ret = chip->get_irq_num(chip, gpio, irqp, irqnumflagsp);
    + spin_unlock_irqrestore(&gpio_chips_lock, irq_flags);
    + return ret;
    +}
    +
    +int gpio_to_irq(unsigned gpio)
    +{
    + int ret, irq;
    + ret = gpio_get_irq_num(gpio, &irq, NULL);
    + if (ret)
    + return ret;
    + return irq;
    +}
    +EXPORT_SYMBOL(gpio_to_irq);
    +
    +int gpio_configure(unsigned int gpio, unsigned long flags)
    +{
    + int ret = -ENOTSUPP;
    + struct gpio_chip *chip;
    + unsigned long irq_flags;
    +
    + spin_lock_irqsave(&gpio_chips_lock, irq_flags);
    + chip = get_gpio_chip_locked(gpio);
    + if (chip)
    + ret = chip->configure(chip, gpio, flags);
    + spin_unlock_irqrestore(&gpio_chips_lock, irq_flags);
    + return ret;
    +}
    +EXPORT_SYMBOL(gpio_configure);
    +
    +int gpio_direction_input(unsigned gpio)
    +{
    + return gpio_configure(gpio, GPIOF_INPUT);
    +}
    +EXPORT_SYMBOL(gpio_direction_input);
    +
    +int gpio_direction_output(unsigned gpio, int value)
    +{
    + gpio_set_value(gpio, value);
    + return gpio_configure(gpio, GPIOF_DRIVE_OUTPUT);
    +}
    +EXPORT_SYMBOL(gpio_direction_output);
    +
    +int gpio_get_value(unsigned gpio)
    +{
    + int ret = -ENOTSUPP;
    + struct gpio_chip *chip;
    + unsigned long irq_flags;
    +
    + spin_lock_irqsave(&gpio_chips_lock, irq_flags);
    + chip = get_gpio_chip_locked(gpio);
    + if (chip && chip->read)
    + ret = chip->read(chip, gpio);
    + spin_unlock_irqrestore(&gpio_chips_lock, irq_flags);
    + return ret;
    +}
    +EXPORT_SYMBOL(gpio_get_value);
    +
    +void gpio_set_value(unsigned gpio, int on)
    +{
    + int ret = -ENOTSUPP;
    + struct gpio_chip *chip;
    + unsigned long irq_flags;
    +
    + spin_lock_irqsave(&gpio_chips_lock, irq_flags);
    + chip = get_gpio_chip_locked(gpio);
    + if (chip && chip->write)
    + ret = chip->write(chip, gpio, on);
    + spin_unlock_irqrestore(&gpio_chips_lock, irq_flags);
    +}
    +EXPORT_SYMBOL(gpio_set_value);
    +
    +int gpio_read_detect_status(unsigned int gpio)
    +{
    + int ret = -ENOTSUPP;
    + struct gpio_chip *chip;
    + unsigned long irq_flags;
    +
    + spin_lock_irqsave(&gpio_chips_lock, irq_flags);
    + chip = get_gpio_chip_locked(gpio);
    + if (chip && chip->read_detect_status)
    + ret = chip->read_detect_status(chip, gpio);
    + spin_unlock_irqrestore(&gpio_chips_lock, irq_flags);
    + return ret;
    +}
    +EXPORT_SYMBOL(gpio_read_detect_status);
    +
    +int gpio_clear_detect_status(unsigned int gpio)
    +{
    + int ret = -ENOTSUPP;
    + struct gpio_chip *chip;
    + unsigned long irq_flags;
    +
    + spin_lock_irqsave(&gpio_chips_lock, irq_flags);
    + chip = get_gpio_chip_locked(gpio);
    + if (chip && chip->clear_detect_status)
    + ret = chip->clear_detect_status(chip, gpio);
    + spin_unlock_irqrestore(&gpio_chips_lock, irq_flags);
    + return ret;
    +}
    +EXPORT_SYMBOL(gpio_clear_detect_status);
    diff --git a/drivers/staging/dream/pmem.c b/drivers/staging/dream/pmem.c
    new file mode 100644
    index 0000000..def6468
    --- /dev/null
    +++ b/drivers/staging/dream/pmem.c
    @@ -0,0 +1,1335 @@
    +/* drivers/android/pmem.c
    + *
    + * Copyright (C) 2007 Google, Inc.
    + *
    + * This software is licensed under the terms of the GNU General Public
    + * License version 2, as published by the Free Software Foundation, and
    + * may be copied, distributed, and modified under those terms.
    + *
    + * This program is distributed in the hope that 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/miscdevice.h>
    +#include <linux/platform_device.h>
    +#include <linux/fs.h>
    +#include <linux/file.h>
    +#include <linux/mm.h>
    +#include <linux/list.h>
    +#include <linux/debugfs.h>
    +#include <linux/android_pmem.h>
    +#include <linux/mempolicy.h>
    +#include <linux/sched.h>
    +#include <asm/io.h>
    +#include <asm/uaccess.h>
    +#include <asm/cacheflush.h>
    +
    +#define PMEM_MAX_DEVICES 10
    +#define PMEM_MAX_ORDER 128
    +#define PMEM_MIN_ALLOC PAGE_SIZE
    +
    +#define PMEM_DEBUG 1
    +
    +/* indicates that a refernce to this file has been taken via get_pmem_file,
    + * the file should not be released until put_pmem_file is called */
    +#define PMEM_FLAGS_BUSY 0x1
    +/* indicates that this is a suballocation of a larger master range */
    +#define PMEM_FLAGS_CONNECTED 0x1 << 1
    +/* indicates this is a master and not a sub allocation and that it is mmaped */
    +#define PMEM_FLAGS_MASTERMAP 0x1 << 2
    +/* submap and unsubmap flags indicate:
    + * 00: subregion has never been mmaped
    + * 10: subregion has been mmaped, reference to the mm was taken
    + * 11: subretion has ben released, refernece to the mm still held
    + * 01: subretion has been released, reference to the mm has been released
    + */
    +#define PMEM_FLAGS_SUBMAP 0x1 << 3
    +#define PMEM_FLAGS_UNSUBMAP 0x1 << 4
    +
    +
    +struct pmem_data {
    + /* in alloc mode: an index into the bitmap
    + * in no_alloc mode: the size of the allocation */
    + int index;
    + /* see flags above for descriptions */
    + unsigned int flags;
    + /* protects this data field, if the mm_mmap sem will be held at the
    + * same time as this sem, the mm sem must be taken first (as this is
    + * the order for vma_open and vma_close ops */
    + struct rw_semaphore sem;
    + /* info about the mmaping process */
    + struct vm_area_struct *vma;
    + /* task struct of the mapping process */
    + struct task_struct *task;
    + /* process id of teh mapping process */
    + pid_t pid;
    + /* file descriptor of the master */
    + int master_fd;
    + /* file struct of the master */
    + struct file *master_file;
    + /* a list of currently available regions if this is a suballocation */
    + struct list_head region_list;
    + /* a linked list of data so we can access them for debugging */
    + struct list_head list;
    +#if PMEM_DEBUG
    + int ref;
    +#endif
    +};
    +
    +struct pmem_bits {
    + unsigned allocated:1; /* 1 if allocated, 0 if free */
    + unsigned order:7; /* size of the region in pmem space */
    +};
    +
    +struct pmem_region_node {
    + struct pmem_region region;
    + struct list_head list;
    +};
    +
    +#define PMEM_DEBUG_MSGS 0
    +#if PMEM_DEBUG_MSGS
    +#define DLOG(fmt,args...) \
    + do { printk(KERN_INFO "[%s:%s:%d] "fmt, __FILE__, __func__, __LINE__, \
    + ##args); } \
    + while (0)
    +#else
    +#define DLOG(x...) do {} while (0)
    +#endif
    +
    +struct pmem_info {
    + struct miscdevice dev;
    + /* physical start address of the remaped pmem space */
    + unsigned long base;
    + /* vitual start address of the remaped pmem space */
    + unsigned char __iomem *vbase;
    + /* total size of the pmem space */
    + unsigned long size;
    + /* number of entries in the pmem space */
    + unsigned long num_entries;
    + /* pfn of the garbage page in memory */
    + unsigned long garbage_pfn;
    + /* index of the garbage page in the pmem space */
    + int garbage_index;
    + /* the bitmap for the region indicating which entries are allocated
    + * and which are free */
    + struct pmem_bits *bitmap;
    + /* indicates the region should not be managed with an allocator */
    + unsigned no_allocator;
    + /* indicates maps of this region should be cached, if a mix of
    + * cached and uncached is desired, set this and open the device with
    + * O_SYNC to get an uncached region */
    + unsigned cached;
    + unsigned buffered;
    + /* in no_allocator mode the first mapper gets the whole space and sets
    + * this flag */
    + unsigned allocated;
    + /* for debugging, creates a list of pmem file structs, the
    + * data_list_sem should be taken before pmem_data->sem if both are
    + * needed */
    + struct semaphore data_list_sem;
    + struct list_head data_list;
    + /* pmem_sem protects the bitmap array
    + * a write lock should be held when modifying entries in bitmap
    + * a read lock should be held when reading data from bits or
    + * dereferencing a pointer into bitmap
    + *
    + * pmem_data->sem protects the pmem data of a particular file
    + * Many of the function that require the pmem_data->sem have a non-
    + * locking version for when the caller is already holding that sem.
    + *
    + * IF YOU TAKE BOTH LOCKS TAKE THEM IN THIS ORDER:
    + * down(pmem_data->sem) => down(bitmap_sem)
    + */
    + struct rw_semaphore bitmap_sem;
    +
    + long (*ioctl)(struct file *, unsigned int, unsigned long);
    + int (*release)(struct inode *, struct file *);
    +};
    +
    +static struct pmem_info pmem[PMEM_MAX_DEVICES];
    +static int id_count;
    +
    +#define PMEM_IS_FREE(id, index) !(pmem[id].bitmap[index].allocated)
    +#define PMEM_ORDER(id, index) pmem[id].bitmap[index].order
    +#define PMEM_BUDDY_INDEX(id, index) (index ^ (1 << PMEM_ORDER(id, index)))
    +#define PMEM_NEXT_INDEX(id, index) (index + (1 << PMEM_ORDER(id, index)))
    +#define PMEM_OFFSET(index) (index * PMEM_MIN_ALLOC)
    +#define PMEM_START_ADDR(id, index) (PMEM_OFFSET(index) + pmem[id].base)
    +#define PMEM_LEN(id, index) ((1 << PMEM_ORDER(id, index)) * PMEM_MIN_ALLOC)
    +#define PMEM_END_ADDR(id, index) (PMEM_START_ADDR(id, index) + \
    + PMEM_LEN(id, index))
    +#define PMEM_START_VADDR(id, index) (PMEM_OFFSET(id, index) + pmem[id].vbase)
    +#define PMEM_END_VADDR(id, index) (PMEM_START_VADDR(id, index) + \
    + PMEM_LEN(id, index))
    +#define PMEM_REVOKED(data) (data->flags & PMEM_FLAGS_REVOKED)
    +#define PMEM_IS_PAGE_ALIGNED(addr) (!((addr) & (~PAGE_MASK)))
    +#define PMEM_IS_SUBMAP(data) ((data->flags & PMEM_FLAGS_SUBMAP) && \
    + (!(data->flags & PMEM_FLAGS_UNSUBMAP)))
    +
    +static int pmem_release(struct inode *, struct file *);
    +static int pmem_mmap(struct file *, struct vm_area_struct *);
    +static int pmem_open(struct inode *, struct file *);
    +static long pmem_ioctl(struct file *, unsigned int, unsigned long);
    +
    +struct file_operations pmem_fops = {
    + .release = pmem_release,
    + .mmap = pmem_mmap,
    + .open = pmem_open,
    + .unlocked_ioctl = pmem_ioctl,
    +};
    +
    +static int get_id(struct file *file)
    +{
    + return MINOR(file->f_dentry->d_inode->i_rdev);
    +}
    +
    +static int is_pmem_file(struct file *file)
    +{
    + int id;
    +
    + if (unlikely(!file || !file->f_dentry || !file->f_dentry->d_inode))
    + return 0;
    + id = get_id(file);
    + if (unlikely(id >= PMEM_MAX_DEVICES))
    + return 0;
    + if (unlikely(file->f_dentry->d_inode->i_rdev !=
    + MKDEV(MISC_MAJOR, pmem[id].dev.minor)))
    + return 0;
    + return 1;
    +}
    +
    +static int has_allocation(struct file *file)
    +{
    + struct pmem_data *data;
    + /* check is_pmem_file first if not accessed via pmem_file_ops */
    +
    + if (unlikely(!file->private_data))
    + return 0;
    + data = (struct pmem_data *)file->private_data;
    + if (unlikely(data->index < 0))
    + return 0;
    + return 1;
    +}
    +
    +static int is_master_owner(struct file *file)
    +{
    + struct file *master_file;
    + struct pmem_data *data;
    + int put_needed, ret = 0;
    +
    + if (!is_pmem_file(file) || !has_allocation(file))
    + return 0;
    + data = (struct pmem_data *)file->private_data;
    + if (PMEM_FLAGS_MASTERMAP & data->flags)
    + return 1;
    + master_file = fget_light(data->master_fd, &put_needed);
    + if (master_file && data->master_file == master_file)
    + ret = 1;
    + fput_light(master_file, put_needed);
    + return ret;
    +}
    +
    +static int pmem_free(int id, int index)
    +{
    + /* caller should hold the write lock on pmem_sem! */
    + int buddy, curr = index;
    + DLOG("index %d\n", index);
    +
    + if (pmem[id].no_allocator) {
    + pmem[id].allocated = 0;
    + return 0;
    + }
    + /* clean up the bitmap, merging any buddies */
    + pmem[id].bitmap[curr].allocated = 0;
    + /* find a slots buddy Buddy# = Slot# ^ (1 << order)
    + * if the buddy is also free merge them
    + * repeat until the buddy is not free or end of the bitmap is reached
    + */
    + do {
    + buddy = PMEM_BUDDY_INDEX(id, curr);
    + if (PMEM_IS_FREE(id, buddy) &&
    + PMEM_ORDER(id, buddy) == PMEM_ORDER(id, curr)) {
    + PMEM_ORDER(id, buddy)++;
    + PMEM_ORDER(id, curr)++;
    + curr = min(buddy, curr);
    + } else {
    + break;
    + }
    + } while (curr < pmem[id].num_entries);
    +
    + return 0;
    +}
    +
    +static void pmem_revoke(struct file *file, struct pmem_data *data);
    +
    +static int pmem_release(struct inode *inode, struct file *file)
    +{
    + struct pmem_data *data = (struct pmem_data *)file->private_data;
    + struct pmem_region_node *region_node;
    + struct list_head *elt, *elt2;
    + int id = get_id(file), ret = 0;
    +
    +
    + down(&pmem[id].data_list_sem);
    + /* if this file is a master, revoke all the memory in the connected
    + * files */
    + if (PMEM_FLAGS_MASTERMAP & data->flags) {
    + struct pmem_data *sub_data;
    + list_for_each(elt, &pmem[id].data_list) {
    + sub_data = list_entry(elt, struct pmem_data, list);
    + down_read(&sub_data->sem);
    + if (PMEM_IS_SUBMAP(sub_data) &&
    + file == sub_data->master_file) {
    + up_read(&sub_data->sem);
    + pmem_revoke(file, sub_data);
    + } else
    + up_read(&sub_data->sem);
    + }
    + }
    + list_del(&data->list);
    + up(&pmem[id].data_list_sem);
    +
    +
    + down_write(&data->sem);
    +
    + /* if its not a conencted file and it has an allocation, free it */
    + if (!(PMEM_FLAGS_CONNECTED & data->flags) && has_allocation(file)) {
    + down_write(&pmem[id].bitmap_sem);
    + ret = pmem_free(id, data->index);
    + up_write(&pmem[id].bitmap_sem);
    + }
    +
    + /* if this file is a submap (mapped, connected file), downref the
    + * task struct */
    + if (PMEM_FLAGS_SUBMAP & data->flags)
    + if (data->task) {
    + put_task_struct(data->task);
    + data->task = NULL;
    + }
    +
    + file->private_data = NULL;
    +
    + list_for_each_safe(elt, elt2, &data->region_list) {
    + region_node = list_entry(elt, struct pmem_region_node, list);
    + list_del(elt);
    + kfree(region_node);
    + }
    + BUG_ON(!list_empty(&data->region_list));
    +
    + up_write(&data->sem);
    + kfree(data);
    + if (pmem[id].release)
    + ret = pmem[id].release(inode, file);
    +
    + return ret;
    +}
    +
    +static int pmem_open(struct inode *inode, struct file *file)
    +{
    + struct pmem_data *data;
    + int id = get_id(file);
    + int ret = 0;
    +
    + DLOG("current %u file %p(%d)\n", current->pid, file, file_count(file));
    + /* setup file->private_data to indicate its unmapped */
    + /* you can only open a pmem device one time */
    + if (file->private_data != NULL)
    + return -1;
    + data = kmalloc(sizeof(struct pmem_data), GFP_KERNEL);
    + if (!data) {
    + printk("pmem: unable to allocate memory for pmem metadata.");
    + return -1;
    + }
    + data->flags = 0;
    + data->index = -1;
    + data->task = NULL;
    + data->vma = NULL;
    + data->pid = 0;
    + data->master_file = NULL;
    +#if PMEM_DEBUG
    + data->ref = 0;
    +#endif
    + INIT_LIST_HEAD(&data->region_list);
    + init_rwsem(&data->sem);
    +
    + file->private_data = data;
    + INIT_LIST_HEAD(&data->list);
    +
    + down(&pmem[id].data_list_sem);
    + list_add(&data->list, &pmem[id].data_list);
    + up(&pmem[id].data_list_sem);
    + return ret;
    +}
    +
    +static unsigned long pmem_order(unsigned long len)
    +{
    + int i;
    +
    + len = (len + PMEM_MIN_ALLOC - 1)/PMEM_MIN_ALLOC;
    + len--;
    + for (i = 0; i < sizeof(len)*8; i++)
    + if (len >> i == 0)
    + break;
    + return i;
    +}
    +
    +static int pmem_allocate(int id, unsigned long len)
    +{
    + /* caller should hold the write lock on pmem_sem! */
    + /* return the corresponding pdata[] entry */
    + int curr = 0;
    + int end = pmem[id].num_entries;
    + int best_fit = -1;
    + unsigned long order = pmem_order(len);
    +
    + if (pmem[id].no_allocator) {
    + DLOG("no allocator");
    + if ((len > pmem[id].size) || pmem[id].allocated)
    + return -1;
    + pmem[id].allocated = 1;
    + return len;
    + }
    +
    + if (order > PMEM_MAX_ORDER)
    + return -1;
    + DLOG("order %lx\n", order);
    +
    + /* look through the bitmap:
    + * if you find a free slot of the correct order use it
    + * otherwise, use the best fit (smallest with size > order) slot
    + */
    + while (curr < end) {
    + if (PMEM_IS_FREE(id, curr)) {
    + if (PMEM_ORDER(id, curr) == (unsigned char)order) {
    + /* set the not free bit and clear others */
    + best_fit = curr;
    + break;
    + }
    + if (PMEM_ORDER(id, curr) > (unsigned char)order &&
    + (best_fit < 0 ||
    + PMEM_ORDER(id, curr) < PMEM_ORDER(id, best_fit)))
    + best_fit = curr;
    + }
    + curr = PMEM_NEXT_INDEX(id, curr);
    + }
    +
    + /* if best_fit < 0, there are no suitable slots,
    + * return an error
    + */
    + if (best_fit < 0) {
    + printk("pmem: no space left to allocate!\n");
    + return -1;
    + }
    +
    + /* now partition the best fit:
    + * split the slot into 2 buddies of order - 1
    + * repeat until the slot is of the correct order
    + */
    + while (PMEM_ORDER(id, best_fit) > (unsigned char)order) {
    + int buddy;
    + PMEM_ORDER(id, best_fit) -= 1;
    + buddy = PMEM_BUDDY_INDEX(id, best_fit);
    + PMEM_ORDER(id, buddy) = PMEM_ORDER(id, best_fit);
    + }
    + pmem[id].bitmap[best_fit].allocated = 1;
    + return best_fit;
    +}
    +
    +static pgprot_t phys_mem_access_prot(struct file *file, pgprot_t vma_prot)
    +{
    + int id = get_id(file);
    +#ifdef pgprot_noncached
    + if (pmem[id].cached == 0 || file->f_flags & O_SYNC)
    + return pgprot_noncached(vma_prot);
    +#endif
    +#ifdef pgprot_ext_buffered
    + else if (pmem[id].buffered)
    + return pgprot_ext_buffered(vma_prot);
    +#endif
    + return vma_prot;
    +}
    +
    +static unsigned long pmem_start_addr(int id, struct pmem_data *data)
    +{
    + if (pmem[id].no_allocator)
    + return PMEM_START_ADDR(id, 0);
    + else
    + return PMEM_START_ADDR(id, data->index);
    +
    +}
    +
    +static void *pmem_start_vaddr(int id, struct pmem_data *data)
    +{
    + return pmem_start_addr(id, data) - pmem[id].base + pmem[id].vbase;
    +}
    +
    +static unsigned long pmem_len(int id, struct pmem_data *data)
    +{
    + if (pmem[id].no_allocator)
    + return data->index;
    + else
    + return PMEM_LEN(id, data->index);
    +}
    +
    +static int pmem_map_garbage(int id, struct vm_area_struct *vma,
    + struct pmem_data *data, unsigned long offset,
    + unsigned long len)
    +{
    + int i, garbage_pages = len >> PAGE_SHIFT;
    +
    + vma->vm_flags |= VM_IO | VM_RESERVED | VM_PFNMAP | VM_SHARED | VM_WRITE;
    + for (i = 0; i < garbage_pages; i++) {
    + if (vm_insert_pfn(vma, vma->vm_start + offset + (i * PAGE_SIZE),
    + pmem[id].garbage_pfn))
    + return -EAGAIN;
    + }
    + return 0;
    +}
    +
    +static int pmem_unmap_pfn_range(int id, struct vm_area_struct *vma,
    + struct pmem_data *data, unsigned long offset,
    + unsigned long len)
    +{
    + int garbage_pages;
    + DLOG("unmap offset %lx len %lx\n", offset, len);
    +
    + BUG_ON(!PMEM_IS_PAGE_ALIGNED(len));
    +
    + garbage_pages = len >> PAGE_SHIFT;
    + zap_page_range(vma, vma->vm_start + offset, len, NULL);
    + pmem_map_garbage(id, vma, data, offset, len);
    + return 0;
    +}
    +
    +static int pmem_map_pfn_range(int id, struct vm_area_struct *vma,
    + struct pmem_data *data, unsigned long offset,
    + unsigned long len)
    +{
    + DLOG("map offset %lx len %lx\n", offset, len);
    + BUG_ON(!PMEM_IS_PAGE_ALIGNED(vma->vm_start));
    + BUG_ON(!PMEM_IS_PAGE_ALIGNED(vma->vm_end));
    + BUG_ON(!PMEM_IS_PAGE_ALIGNED(len));
    + BUG_ON(!PMEM_IS_PAGE_ALIGNED(offset));
    +
    + if (io_remap_pfn_range(vma, vma->vm_start + offset,
    + (pmem_start_addr(id, data) + offset) >> PAGE_SHIFT,
    + len, vma->vm_page_prot)) {
    + return -EAGAIN;
    + }
    + return 0;
    +}
    +
    +static int pmem_remap_pfn_range(int id, struct vm_area_struct *vma,
    + struct pmem_data *data, unsigned long offset,
    + unsigned long len)
    +{
    + /* hold the mm semp for the vma you are modifying when you call this */
    + BUG_ON(!vma);
    + zap_page_range(vma, vma->vm_start + offset, len, NULL);
    + return pmem_map_pfn_range(id, vma, data, offset, len);
    +}
    +
    +static void pmem_vma_open(struct vm_area_struct *vma)
    +{
    + struct file *file = vma->vm_file;
    + struct pmem_data *data = file->private_data;
    + int id = get_id(file);
    + /* this should never be called as we don't support copying pmem
    + * ranges via fork */
    + BUG_ON(!has_allocation(file));
    + down_write(&data->sem);
    + /* remap the garbage pages, forkers don't get access to the data */
    + pmem_unmap_pfn_range(id, vma, data, 0, vma->vm_start - vma->vm_end);
    + up_write(&data->sem);
    +}
    +
    +static void pmem_vma_close(struct vm_area_struct *vma)
    +{
    + struct file *file = vma->vm_file;
    + struct pmem_data *data = file->private_data;
    +
    + DLOG("current %u ppid %u file %p count %d\n", current->pid,
    + current->parent->pid, file, file_count(file));
    + if (unlikely(!is_pmem_file(file) || !has_allocation(file))) {
    + printk(KERN_WARNING "pmem: something is very wrong, you are "
    + "closing a vm backing an allocation that doesn't "
    + "exist!\n");
    + return;
    + }
    + down_write(&data->sem);
    + if (data->vma == vma) {
    + data->vma = NULL;
    + if ((data->flags & PMEM_FLAGS_CONNECTED) &&
    + (data->flags & PMEM_FLAGS_SUBMAP))
    + data->flags |= PMEM_FLAGS_UNSUBMAP;
    + }
    + /* the kernel is going to free this vma now anyway */
    + up_write(&data->sem);
    +}
    +
    +static struct vm_operations_struct vm_ops = {
    + .open = pmem_vma_open,
    + .close = pmem_vma_close,
    +};
    +
    +static int pmem_mmap(struct file *file, struct vm_area_struct *vma)
    +{
    + struct pmem_data *data;
    + int index;
    + unsigned long vma_size = vma->vm_end - vma->vm_start;
    + int ret = 0, id = get_id(file);
    +
    + if (vma->vm_pgoff || !PMEM_IS_PAGE_ALIGNED(vma_size)) {
    +#if PMEM_DEBUG
    + printk(KERN_ERR "pmem: mmaps must be at offset zero, aligned"
    + " and a multiple of pages_size.\n");
    +#endif
    + return -EINVAL;
    + }
    +
    + data = (struct pmem_data *)file->private_data;
    + down_write(&data->sem);
    + /* check this file isn't already mmaped, for submaps check this file
    + * has never been mmaped */
    + if ((data->flags & PMEM_FLAGS_MASTERMAP) ||
    + (data->flags & PMEM_FLAGS_SUBMAP) ||
    + (data->flags & PMEM_FLAGS_UNSUBMAP)) {
    +#if PMEM_DEBUG
    + printk(KERN_ERR "pmem: you can only mmap a pmem file once, "
    + "this file is already mmaped. %x\n", data->flags);
    +#endif
    + ret = -EINVAL;
    + goto error;
    + }
    + /* if file->private_data == unalloced, alloc*/
    + if (data && data->index == -1) {
    + down_write(&pmem[id].bitmap_sem);
    + index = pmem_allocate(id, vma->vm_end - vma->vm_start);
    + up_write(&pmem[id].bitmap_sem);
    + data->index = index;
    + }
    + /* either no space was available or an error occured */
    + if (!has_allocation(file)) {
    + ret = -EINVAL;
    + printk("pmem: could not find allocation for map.\n");
    + goto error;
    + }
    +
    + if (pmem_len(id, data) < vma_size) {
    +#if PMEM_DEBUG
    + printk(KERN_WARNING "pmem: mmap size [%lu] does not match"
    + "size of backing region [%lu].\n", vma_size,
    + pmem_len(id, data));
    +#endif
    + ret = -EINVAL;
    + goto error;
    + }
    +
    + vma->vm_pgoff = pmem_start_addr(id, data) >> PAGE_SHIFT;
    + vma->vm_page_prot = phys_mem_access_prot(file, vma->vm_page_prot);
    +
    + if (data->flags & PMEM_FLAGS_CONNECTED) {
    + struct pmem_region_node *region_node;
    + struct list_head *elt;
    + if (pmem_map_garbage(id, vma, data, 0, vma_size)) {
    + printk("pmem: mmap failed in kernel!\n");
    + ret = -EAGAIN;
    + goto error;
    + }
    + list_for_each(elt, &data->region_list) {
    + region_node = list_entry(elt, struct pmem_region_node,
    + list);
    + DLOG("remapping file: %p %lx %lx\n", file,
    + region_node->region.offset,
    + region_node->region.len);
    + if (pmem_remap_pfn_range(id, vma, data,
    + region_node->region.offset,
    + region_node->region.len)) {
    + ret = -EAGAIN;
    + goto error;
    + }
    + }
    + data->flags |= PMEM_FLAGS_SUBMAP;
    + get_task_struct(current->group_leader);
    + data->task = current->group_leader;
    + data->vma = vma;
    +#if PMEM_DEBUG
    + data->pid = current->pid;
    +#endif
    + DLOG("submmapped file %p vma %p pid %u\n", file, vma,
    + current->pid);
    + } else {
    + if (pmem_map_pfn_range(id, vma, data, 0, vma_size)) {
    + printk(KERN_INFO "pmem: mmap failed in kernel!\n");
    + ret = -EAGAIN;
    + goto error;
    + }
    + data->flags |= PMEM_FLAGS_MASTERMAP;
    + data->pid = current->pid;
    + }
    + vma->vm_ops = &vm_ops;
    +error:
    + up_write(&data->sem);
    + return ret;
    +}
    +
    +/* the following are the api for accessing pmem regions by other drivers
    + * from inside the kernel */
    +int get_pmem_user_addr(struct file *file, unsigned long *start,
    + unsigned long *len)
    +{
    + struct pmem_data *data;
    + if (!is_pmem_file(file) || !has_allocation(file)) {
    +#if PMEM_DEBUG
    + printk(KERN_INFO "pmem: requested pmem data from invalid"
    + "file.\n");
    +#endif
    + return -1;
    + }
    + data = (struct pmem_data *)file->private_data;
    + down_read(&data->sem);
    + if (data->vma) {
    + *start = data->vma->vm_start;
    + *len = data->vma->vm_end - data->vma->vm_start;
    + } else {
    + *start = 0;
    + *len = 0;
    + }
    + up_read(&data->sem);
    + return 0;
    +}
    +
    +int get_pmem_addr(struct file *file, unsigned long *start,
    + unsigned long *vstart, unsigned long *len)
    +{
    + struct pmem_data *data;
    + int id;
    +
    + if (!is_pmem_file(file) || !has_allocation(file)) {
    + return -1;
    + }
    +
    + data = (struct pmem_data *)file->private_data;
    + if (data->index == -1) {
    +#if PMEM_DEBUG
    + printk(KERN_INFO "pmem: requested pmem data from file with no "
    + "allocation.\n");
    + return -1;
    +#endif
    + }
    + id = get_id(file);
    +
    + down_read(&data->sem);
    + *start = pmem_start_addr(id, data);
    + *len = pmem_len(id, data);
    + *vstart = (unsigned long)pmem_start_vaddr(id, data);
    + up_read(&data->sem);
    +#if PMEM_DEBUG
    + down_write(&data->sem);
    + data->ref++;
    + up_write(&data->sem);
    +#endif
    + return 0;
    +}
    +
    +int get_pmem_file(int fd, unsigned long *start, unsigned long *vstart,
    + unsigned long *len, struct file **filp)
    +{
    + struct file *file;
    +
    + file = fget(fd);
    + if (unlikely(file == NULL)) {
    + printk(KERN_INFO "pmem: requested data from file descriptor "
    + "that doesn't exist.");
    + return -1;
    + }
    +
    + if (get_pmem_addr(file, start, vstart, len))
    + goto end;
    +
    + if (filp)
    + *filp = file;
    + return 0;
    +end:
    + fput(file);
    + return -1;
    +}
    +
    +void put_pmem_file(struct file *file)
    +{
    + struct pmem_data *data;
    + int id;
    +
    + if (!is_pmem_file(file))
    + return;
    + id = get_id(file);
    + data = (struct pmem_data *)file->private_data;
    +#if PMEM_DEBUG
    + down_write(&data->sem);
    + if (data->ref == 0) {
    + printk("pmem: pmem_put > pmem_get %s (pid %d)\n",
    + pmem[id].dev.name, data->pid);
    + BUG();
    + }
    + data->ref--;
    + up_write(&data->sem);
    +#endif
    + fput(file);
    +}
    +
    +void flush_pmem_file(struct file *file, unsigned long offset, unsigned long len)
    +{
    + struct pmem_data *data;
    + int id;
    + void *vaddr;
    + struct pmem_region_node *region_node;
    + struct list_head *elt;
    + void *flush_start, *flush_end;
    +
    + if (!is_pmem_file(file) || !has_allocation(file)) {
    + return;
    + }
    +
    + id = get_id(file);
    + data = (struct pmem_data *)file->private_data;
    + if (!pmem[id].cached)
    + return;
    +
    + down_read(&data->sem);
    + vaddr = pmem_start_vaddr(id, data);
    + /* if this isn't a submmapped file, flush the whole thing */
    + if (unlikely(!(data->flags & PMEM_FLAGS_CONNECTED))) {
    + dmac_flush_range(vaddr, vaddr + pmem_len(id, data));
    + goto end;
    + }
    + /* otherwise, flush the region of the file we are drawing */
    + list_for_each(elt, &data->region_list) {
    + region_node = list_entry(elt, struct pmem_region_node, list);
    + if ((offset >= region_node->region.offset) &&
    + ((offset + len) <= (region_node->region.offset +
    + region_node->region.len))) {
    + flush_start = vaddr + region_node->region.offset;
    + flush_end = flush_start + region_node->region.len;
    + dmac_flush_range(flush_start, flush_end);
    + break;
    + }
    + }
    +end:
    + up_read(&data->sem);
    +}
    +
    +static int pmem_connect(unsigned long connect, struct file *file)
    +{
    + struct pmem_data *data = (struct pmem_data *)file->private_data;
    + struct pmem_data *src_data;
    + struct file *src_file;
    + int ret = 0, put_needed;
    +
    + down_write(&data->sem);
    + /* retrieve the src file and check it is a pmem file with an alloc */
    + src_file = fget_light(connect, &put_needed);
    + DLOG("connect %p to %p\n", file, src_file);
    + if (!src_file) {
    + printk("pmem: src file not found!\n");
    + ret = -EINVAL;
    + goto err_no_file;
    + }
    + if (unlikely(!is_pmem_file(src_file) || !has_allocation(src_file))) {
    + printk(KERN_INFO "pmem: src file is not a pmem file or has no "
    + "alloc!\n");
    + ret = -EINVAL;
    + goto err_bad_file;
    + }
    + src_data = (struct pmem_data *)src_file->private_data;
    +
    + if (has_allocation(file) && (data->index != src_data->index)) {
    + printk("pmem: file is already mapped but doesn't match this"
    + " src_file!\n");
    + ret = -EINVAL;
    + goto err_bad_file;
    + }
    + data->index = src_data->index;
    + data->flags |= PMEM_FLAGS_CONNECTED;
    + data->master_fd = connect;
    + data->master_file = src_file;
    +
    +err_bad_file:
    + fput_light(src_file, put_needed);
    +err_no_file:
    + up_write(&data->sem);
    + return ret;
    +}
    +
    +static void pmem_unlock_data_and_mm(struct pmem_data *data,
    + struct mm_struct *mm)
    +{
    + up_write(&data->sem);
    + if (mm != NULL) {
    + up_write(&mm->mmap_sem);
    + mmput(mm);
    + }
    +}
    +
    +static int pmem_lock_data_and_mm(struct file *file, struct pmem_data *data,
    + struct mm_struct **locked_mm)
    +{
    + int ret = 0;
    + struct mm_struct *mm = NULL;
    + *locked_mm = NULL;
    +lock_mm:
    + down_read(&data->sem);
    + if (PMEM_IS_SUBMAP(data)) {
    + mm = get_task_mm(data->task);
    + if (!mm) {
    +#if PMEM_DEBUG
    + printk("pmem: can't remap task is gone!\n");
    +#endif
    + up_read(&data->sem);
    + return -1;
    + }
    + }
    + up_read(&data->sem);
    +
    + if (mm)
    + down_write(&mm->mmap_sem);
    +
    + down_write(&data->sem);
    + /* check that the file didn't get mmaped before we could take the
    + * data sem, this should be safe b/c you can only submap each file
    + * once */
    + if (PMEM_IS_SUBMAP(data) && !mm) {
    + pmem_unlock_data_and_mm(data, mm);
    + up_write(&data->sem);
    + goto lock_mm;
    + }
    + /* now check that vma.mm is still there, it could have been
    + * deleted by vma_close before we could get the data->sem */
    + if ((data->flags & PMEM_FLAGS_UNSUBMAP) && (mm != NULL)) {
    + /* might as well release this */
    + if (data->flags & PMEM_FLAGS_SUBMAP) {
    + put_task_struct(data->task);
    + data->task = NULL;
    + /* lower the submap flag to show the mm is gone */
    + data->flags &= ~(PMEM_FLAGS_SUBMAP);
    + }
    + pmem_unlock_data_and_mm(data, mm);
    + return -1;
    + }
    + *locked_mm = mm;
    + return ret;
    +}
    +
    +int pmem_remap(struct pmem_region *region, struct file *file,
    + unsigned operation)
    +{
    + int ret;
    + struct pmem_region_node *region_node;
    + struct mm_struct *mm = NULL;
    + struct list_head *elt, *elt2;
    + int id = get_id(file);
    + struct pmem_data *data = (struct pmem_data *)file->private_data;
    +
    + /* pmem region must be aligned on a page boundry */
    + if (unlikely(!PMEM_IS_PAGE_ALIGNED(region->offset) ||
    + !PMEM_IS_PAGE_ALIGNED(region->len))) {
    +#if PMEM_DEBUG
    + printk("pmem: request for unaligned pmem suballocation "
    + "%lx %lx\n", region->offset, region->len);
    +#endif
    + return -EINVAL;
    + }
    +
    + /* if userspace requests a region of len 0, there's nothing to do */
    + if (region->len == 0)
    + return 0;
    +
    + /* lock the mm and data */
    + ret = pmem_lock_data_and_mm(file, data, &mm);
    + if (ret)
    + return 0;
    +
    + /* only the owner of the master file can remap the client fds
    + * that back in it */
    + if (!is_master_owner(file)) {
    +#if PMEM_DEBUG
    + printk("pmem: remap requested from non-master process\n");
    +#endif
    + ret = -EINVAL;
    + goto err;
    + }
    +
    + /* check that the requested range is within the src allocation */
    + if (unlikely((region->offset > pmem_len(id, data)) ||
    + (region->len > pmem_len(id, data)) ||
    + (region->offset + region->len > pmem_len(id, data)))) {
    +#if PMEM_DEBUG
    + printk(KERN_INFO "pmem: suballoc doesn't fit in src_file!\n");
    +#endif
    + ret = -EINVAL;
    + goto err;
    + }
    +
    + if (operation == PMEM_MAP) {
    + region_node = kmalloc(sizeof(struct pmem_region_node),
    + GFP_KERNEL);
    + if (!region_node) {
    + ret = -ENOMEM;
    +#if PMEM_DEBUG
    + printk(KERN_INFO "No space to allocate metadata!");
    +#endif
    + goto err;
    + }
    + region_node->region = *region;
    + list_add(&region_node->list, &data->region_list);
    + } else if (operation == PMEM_UNMAP) {
    + int found = 0;
    + list_for_each_safe(elt, elt2, &data->region_list) {
    + region_node = list_entry(elt, struct pmem_region_node,
    + list);
    + if (region->len == 0 ||
    + (region_node->region.offset == region->offset &&
    + region_node->region.len == region->len)) {
    + list_del(elt);
    + kfree(region_node);
    + found = 1;
    + }
    + }
    + if (!found) {
    +#if PMEM_DEBUG
    + printk("pmem: Unmap region does not map any mapped "
    + "region!");
    +#endif
    + ret = -EINVAL;
    + goto err;
    + }
    + }
    +
    + if (data->vma && PMEM_IS_SUBMAP(data)) {
    + if (operation == PMEM_MAP)
    + ret = pmem_remap_pfn_range(id, data->vma, data,
    + region->offset, region->len);
    + else if (operation == PMEM_UNMAP)
    + ret = pmem_unmap_pfn_range(id, data->vma, data,
    + region->offset, region->len);
    + }
    +
    +err:
    + pmem_unlock_data_and_mm(data, mm);
    + return ret;
    +}
    +
    +static void pmem_revoke(struct file *file, struct pmem_data *data)
    +{
    + struct pmem_region_node *region_node;
    + struct list_head *elt, *elt2;
    + struct mm_struct *mm = NULL;
    + int id = get_id(file);
    + int ret = 0;
    +
    + data->master_file = NULL;
    + ret = pmem_lock_data_and_mm(file, data, &mm);
    + /* if lock_data_and_mm fails either the task that mapped the fd, or
    + * the vma that mapped it have already gone away, nothing more
    + * needs to be done */
    + if (ret)
    + return;
    + /* unmap everything */
    + /* delete the regions and region list nothing is mapped any more */
    + if (data->vma)
    + list_for_each_safe(elt, elt2, &data->region_list) {
    + region_node = list_entry(elt, struct pmem_region_node,
    + list);
    + pmem_unmap_pfn_range(id, data->vma, data,
    + region_node->region.offset,
    + region_node->region.len);
    + list_del(elt);
    + kfree(region_node);
    + }
    + /* delete the master file */
    + pmem_unlock_data_and_mm(data, mm);
    +}
    +
    +static void pmem_get_size(struct pmem_region *region, struct file *file)
    +{
    + struct pmem_data *data = (struct pmem_data *)file->private_data;
    + int id = get_id(file);
    +
    + if (!has_allocation(file)) {
    + region->offset = 0;
    + region->len = 0;
    + return;
    + } else {
    + region->offset = pmem_start_addr(id, data);
    + region->len = pmem_len(id, data);
    + }
    + DLOG("offset %lx len %lx\n", region->offset, region->len);
    +}
    +
    +
    +static long pmem_ioctl(struct file *file, unsigned int cmd, unsigned long arg)
    +{
    + struct pmem_data *data;
    + int id = get_id(file);
    +
    + switch (cmd) {
    + case PMEM_GET_PHYS:
    + {
    + struct pmem_region region;
    + DLOG("get_phys\n");
    + if (!has_allocation(file)) {
    + region.offset = 0;
    + region.len = 0;
    + } else {
    + data = (struct pmem_data *)file->private_data;
    + region.offset = pmem_start_addr(id, data);
    + region.len = pmem_len(id, data);
    + }
    + printk(KERN_INFO "pmem: request for physical address of pmem region "
    + "from process %d.\n", current->pid);
    + if (copy_to_user((void __user *)arg, &region,
    + sizeof(struct pmem_region)))
    + return -EFAULT;
    + break;
    + }
    + case PMEM_MAP:
    + {
    + struct pmem_region region;
    + if (copy_from_user(&region, (void __user *)arg,
    + sizeof(struct pmem_region)))
    + return -EFAULT;
    + data = (struct pmem_data *)file->private_data;
    + return pmem_remap(&region, file, PMEM_MAP);
    + }
    + break;
    + case PMEM_UNMAP:
    + {
    + struct pmem_region region;
    + if (copy_from_user(&region, (void __user *)arg,
    + sizeof(struct pmem_region)))
    + return -EFAULT;
    + data = (struct pmem_data *)file->private_data;
    + return pmem_remap(&region, file, PMEM_UNMAP);
    + break;
    + }
    + case PMEM_GET_SIZE:
    + {
    + struct pmem_region region;
    + DLOG("get_size\n");
    + pmem_get_size(&region, file);
    + if (copy_to_user((void __user *)arg, &region,
    + sizeof(struct pmem_region)))
    + return -EFAULT;
    + break;
    + }
    + case PMEM_GET_TOTAL_SIZE:
    + {
    + struct pmem_region region;
    + DLOG("get total size\n");
    + region.offset = 0;
    + get_id(file);
    + region.len = pmem[id].size;
    + if (copy_to_user((void __user *)arg, &region,
    + sizeof(struct pmem_region)))
    + return -EFAULT;
    + break;
    + }
    + case PMEM_ALLOCATE:
    + {
    + if (has_allocation(file))
    + return -EINVAL;
    + data = (struct pmem_data *)file->private_data;
    + data->index = pmem_allocate(id, arg);
    + break;
    + }
    + case PMEM_CONNECT:
    + DLOG("connect\n");
    + return pmem_connect(arg, file);
    + break;
    + default:
    + if (pmem[id].ioctl)
    + return pmem[id].ioctl(file, cmd, arg);
    + return -EINVAL;
    + }
    + return 0;
    +}
    +
    +#if PMEM_DEBUG
    +static ssize_t debug_open(struct inode *inode, struct file *file)
    +{
    + file->private_data = inode->i_private;
    + return 0;
    +}
    +
    +static ssize_t debug_read(struct file *file, char __user *buf, size_t count,
    + loff_t *ppos)
    +{
    + struct list_head *elt, *elt2;
    + struct pmem_data *data;
    + struct pmem_region_node *region_node;
    + int id = (int)file->private_data;
    + const int debug_bufmax = 4096;
    + static char buffer[4096];
    + int n = 0;
    +
    + DLOG("debug open\n");
    + n = scnprintf(buffer, debug_bufmax,
    + "pid #: mapped regions (offset, len) (offset,len)...\n");
    +
    + down(&pmem[id].data_list_sem);
    + list_for_each(elt, &pmem[id].data_list) {
    + data = list_entry(elt, struct pmem_data, list);
    + down_read(&data->sem);
    + n += scnprintf(buffer + n, debug_bufmax - n, "pid %u:",
    + data->pid);
    + list_for_each(elt2, &data->region_list) {
    + region_node = list_entry(elt2, struct pmem_region_node,
    + list);
    + n += scnprintf(buffer + n, debug_bufmax - n,
    + "(%lx,%lx) ",
    + region_node->region.offset,
    + region_node->region.len);
    + }
    + n += scnprintf(buffer + n, debug_bufmax - n, "\n");
    + up_read(&data->sem);
    + }
    + up(&pmem[id].data_list_sem);
    +
    + n++;
    + buffer[n] = 0;
    + return simple_read_from_buffer(buf, count, ppos, buffer, n);
    +}
    +
    +static struct file_operations debug_fops = {
    + .read = debug_read,
    + .open = debug_open,
    +};
    +#endif
    +
    +#if 0
    +static struct miscdevice pmem_dev = {
    + .name = "pmem",
    + .fops = &pmem_fops,
    +};
    +#endif
    +
    +int pmem_setup(struct android_pmem_platform_data *pdata,
    + long (*ioctl)(struct file *, unsigned int, unsigned long),
    + int (*release)(struct inode *, struct file *))
    +{
    + int err = 0;
    + int i, index = 0;
    + int id = id_count;
    + id_count++;
    +
    + pmem[id].no_allocator = pdata->no_allocator;
    + pmem[id].cached = pdata->cached;
    + pmem[id].buffered = pdata->buffered;
    + pmem[id].base = pdata->start;
    + pmem[id].size = pdata->size;
    + pmem[id].ioctl = ioctl;
    + pmem[id].release = release;
    + init_rwsem(&pmem[id].bitmap_sem);
    + init_MUTEX(&pmem[id].data_list_sem);
    + INIT_LIST_HEAD(&pmem[id].data_list);
    + pmem[id].dev.name = pdata->name;
    + pmem[id].dev.minor = id;
    + pmem[id].dev.fops = &pmem_fops;
    + printk(KERN_INFO "%s: %d init\n", pdata->name, pdata->cached);
    +
    + err = misc_register(&pmem[id].dev);
    + if (err) {
    + printk(KERN_ALERT "Unable to register pmem driver!\n");
    + goto err_cant_register_device;
    + }
    + pmem[id].num_entries = pmem[id].size / PMEM_MIN_ALLOC;
    +
    + pmem[id].bitmap = kmalloc(pmem[id].num_entries *
    + sizeof(struct pmem_bits), GFP_KERNEL);
    + if (!pmem[id].bitmap)
    + goto err_no_mem_for_metadata;
    +
    + memset(pmem[id].bitmap, 0, sizeof(struct pmem_bits) *
    + pmem[id].num_entries);
    +
    + for (i = sizeof(pmem[id].num_entries) * 8 - 1; i >= 0; i--) {
    + if ((pmem[id].num_entries) & 1<<i) {
    + PMEM_ORDER(id, index) = i;
    + index = PMEM_NEXT_INDEX(id, index);
    + }
    + }
    +
    + if (pmem[id].cached)
    + pmem[id].vbase = ioremap_cached(pmem[id].base,
    + pmem[id].size);
    +#ifdef ioremap_ext_buffered
    + else if (pmem[id].buffered)
    + pmem[id].vbase = ioremap_ext_buffered(pmem[id].base,
    + pmem[id].size);
    +#endif
    + else
    + pmem[id].vbase = ioremap(pmem[id].base, pmem[id].size);
    +
    + if (pmem[id].vbase == 0)
    + goto error_cant_remap;
    +
    + pmem[id].garbage_pfn = page_to_pfn(alloc_page(GFP_KERNEL));
    + if (pmem[id].no_allocator)
    + pmem[id].allocated = 0;
    +
    +#if PMEM_DEBUG
    + debugfs_create_file(pdata->name, S_IFREG | S_IRUGO, NULL, (void *)id,
    + &debug_fops);
    +#endif
    + return 0;
    +error_cant_remap:
    + kfree(pmem[id].bitmap);
    +err_no_mem_for_metadata:
    + misc_deregister(&pmem[id].dev);
    +err_cant_register_device:
    + return -1;
    +}
    +
    +static int pmem_probe(struct platform_device *pdev)
    +{
    + struct android_pmem_platform_data *pdata;
    +
    + if (!pdev || !pdev->dev.platform_data) {
    + printk(KERN_ALERT "Unable to probe pmem!\n");
    + return -1;
    + }
    + pdata = pdev->dev.platform_data;
    + return pmem_setup(pdata, NULL, NULL);
    +}
    +
    +
    +static int pmem_remove(struct platform_device *pdev)
    +{
    + int id = pdev->id;
    + __free_page(pfn_to_page(pmem[id].garbage_pfn));
    + misc_deregister(&pmem[id].dev);
    + return 0;
    +}
    +
    +static struct platform_driver pmem_driver = {
    + .probe = pmem_probe,
    + .remove = pmem_remove,
    + .driver = { .name = "android_pmem" }
    +};
    +
    +
    +static int __init pmem_init(void)
    +{
    + return platform_driver_register(&pmem_driver);
    +}
    +
    +static void __exit pmem_exit(void)
    +{
    + platform_driver_unregister(&pmem_driver);
    +}
    +
    +module_init(pmem_init);
    +module_exit(pmem_exit);
    +
    --
    (english) http://www.livejournal.com/~pavelmachek
    (cesky, pictures) http://atrey.karlin.mff.cuni.cz/~pavel/picture/horses/blog.html


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