mars/mars.h

442 lines
13 KiB
C

// (c) 2010 Thomas Schoebel-Theuer / 1&1 Internet AG
#ifndef MARS_H
#define MARS_H
#include <linux/list.h>
#include <linux/semaphore.h>
#include <asm/spinlock.h>
#include <asm/atomic.h>
#define MARS_DELAY /**/
//#define MARS_DELAY msleep(20000)
#define MARS_FATAL "MARS_FATAL "
#define MARS_ERROR "MARS_ERROR "
#define MARS_INFO "MARS_INFO "
#define MARS_DEBUG "MARS_DEBUG "
#define _MARS_FMT(fmt) "[%s] " __BASE_FILE__ " %d %s(): " fmt, current->comm, __LINE__, __FUNCTION__
//#define _MARS_FMT(fmt) _BRICK_FMT(fmt)
#define MARS_FAT(fmt, args...) do { printk(MARS_FATAL _MARS_FMT(fmt), ##args); MARS_DELAY; } while (0)
#define MARS_ERR(fmt, args...) do { printk(MARS_ERROR _MARS_FMT(fmt), ##args); MARS_DELAY; } while (0)
#define MARS_INF(fmt, args...) do { printk(MARS_INFO _MARS_FMT(fmt), ##args); } while (0)
#ifdef MARS_DEBUGGING
#define MARS_DBG(fmt, args...) do { printk(MARS_DEBUG _MARS_FMT(fmt), ##args); } while (0)
#else
#define MARS_DBG(args...) /**/
#endif
#ifdef IO_DEBUGGING
#define MARS_IO MARS_DBG
#else
#define MARS_IO(args...) /*empty*/
#endif
#ifdef STAT_DEBUGGING
#define MARS_STAT MARS_INF
#else
#define MARS_IO(args...) /*empty*/
#endif
#define BRICK_OBJ_MREF 0
#define BRICK_OBJ_NR 1
#define GFP_MARS GFP_NOIO
#include "brick.h"
/////////////////////////////////////////////////////////////////////////
// MARS-specific definitions
// object stuff
/* mref */
#define MREF_UPTODATE 1
#define MREF_READING 2
#define MREF_WRITING 4
extern const struct generic_object_type mref_type;
struct mref_aspect {
GENERIC_ASPECT(mref);
};
struct mref_aspect_layout {
GENERIC_ASPECT_LAYOUT(mref);
};
struct mref_object_layout {
GENERIC_OBJECT_LAYOUT(mref);
};
#define MREF_OBJECT(PREFIX) \
GENERIC_OBJECT(PREFIX); \
/* supplied by caller */ \
loff_t ref_pos; \
int ref_len; \
int ref_may_write; \
void *ref_data; /* preset to NULL for buffered IO */ \
/* maintained by the ref implementation, readable for callers */ \
int ref_flags; \
int ref_rw; \
int ref_id; /* not mandatory; may be used for identification */ \
/* maintained by the ref implementation, incrementable for \
* callers (but not decrementable! use ref_put()) */ \
atomic_t ref_count; \
/* callback part */ \
struct generic_callback *ref_cb; \
struct generic_callback _ref_cb; \
struct mref_object {
MREF_OBJECT(mref);
};
// internal helper structs
struct mars_info {
loff_t current_size;
int transfer_order;
int transfer_size;
struct file *backing_file;
};
// brick stuff
#define MARS_BRICK(PREFIX) \
GENERIC_BRICK(PREFIX); \
struct list_head global_brick_link; \
struct list_head dent_brick_link; \
const char *brick_path; \
struct mars_global *global; \
int status_level; \
struct mars_brick {
MARS_BRICK(mars);
};
#define MARS_INPUT(PREFIX) \
GENERIC_INPUT(PREFIX); \
struct mars_input {
MARS_INPUT(mars);
};
#define MARS_OUTPUT(PREFIX) \
GENERIC_OUTPUT(PREFIX); \
struct mars_output {
MARS_OUTPUT(mars);
};
#define MARS_BRICK_OPS(PREFIX) \
GENERIC_BRICK_OPS(PREFIX); \
int (*mars_dummy_op)(int); \
#define MARS_OUTPUT_OPS(PREFIX) \
GENERIC_OUTPUT_OPS(PREFIX); \
int (*mars_get_info)(struct PREFIX##_output *output, struct mars_info *info); \
/* mref */ \
int (*mref_get)(struct PREFIX##_output *output, struct mref_object *mref); \
void (*mref_io)(struct PREFIX##_output *output, struct mref_object *mref); \
void (*mref_put)(struct PREFIX##_output *output, struct mref_object *mref); \
// all non-extendable types
#define _MARS_TYPES(BRICK) \
\
struct BRICK##_brick_ops { \
MARS_BRICK_OPS(BRICK); \
}; \
\
struct BRICK##_output_ops { \
MARS_OUTPUT_OPS(BRICK); \
}; \
\
struct BRICK##_brick_type { \
GENERIC_BRICK_TYPE(BRICK); \
}; \
\
struct BRICK##_input_type { \
GENERIC_INPUT_TYPE(BRICK); \
}; \
\
struct BRICK##_output_type { \
GENERIC_OUTPUT_TYPE(BRICK); \
}; \
\
struct BRICK##_callback { \
GENERIC_CALLBACK(BRICK); \
}; \
\
GENERIC_MAKE_FUNCTIONS(BRICK); \
GENERIC_MAKE_CONNECT(BRICK,BRICK); \
#define MARS_TYPES(BRICK) \
\
_MARS_TYPES(BRICK) \
\
struct BRICK##_object_layout; \
\
GENERIC_MAKE_CONNECT(generic,BRICK); \
GENERIC_OBJECT_LAYOUT_FUNCTIONS(BRICK); \
GENERIC_ASPECT_LAYOUT_FUNCTIONS(BRICK,mref); \
GENERIC_ASPECT_FUNCTIONS(BRICK,mref); \
// instantiate all mars-specific functions
GENERIC_OBJECT_FUNCTIONS(mref);
// instantiate a pseudo base-class "mars"
_MARS_TYPES(mars);
GENERIC_OBJECT_LAYOUT_FUNCTIONS(mars);
GENERIC_ASPECT_FUNCTIONS(mars,mref);
/////////////////////////////////////////////////////////////////////////
// MARS-specific helpers
#define MARS_MAKE_STATICS(BRICK) \
\
int BRICK##_brick_nr = -EEXIST; \
EXPORT_SYMBOL_GPL(BRICK##_brick_nr); \
\
static const struct generic_aspect_type BRICK##_mref_aspect_type = { \
.aspect_type_name = #BRICK "_mref_aspect_type", \
.object_type = &mref_type, \
.aspect_size = sizeof(struct BRICK##_mref_aspect), \
.init_fn = BRICK##_mref_aspect_init_fn, \
.exit_fn = BRICK##_mref_aspect_exit_fn, \
}; \
\
static const struct generic_aspect_type *BRICK##_aspect_types[BRICK_OBJ_NR] = { \
[BRICK_OBJ_MREF] = &BRICK##_mref_aspect_type, \
}; \
#define _CHECK_ATOMIC(atom,OP,minval) \
do { \
int test = atomic_read(atom); \
if (test OP (minval)) { \
atomic_set(atom, minval); \
MARS_ERR("%d: atomic " #atom " " #OP " " #minval " (%d)\n", __LINE__, test); \
} \
} while (0)
#define CHECK_ATOMIC(atom,minval) \
_CHECK_ATOMIC(atom, <, minval)
#define CHECK_HEAD_EMPTY(head) \
if (unlikely(!list_empty(head))) { \
INIT_LIST_HEAD(head); \
MARS_ERR("%d: list_head " #head " (%p) not empty\n", __LINE__, head); \
} \
#define CHECK_PTR(ptr,label) \
if (unlikely(!(ptr))) { \
MARS_FAT("%d: ptr " #ptr " is NULL\n", __LINE__); \
goto label; \
}
#define _CHECK(ptr,label) \
if (unlikely(!(ptr))) { \
MARS_FAT("%d: condition " #ptr " is VIOLATED\n", __LINE__); \
goto label; \
}
extern const struct meta mars_info_meta[];
extern const struct meta mars_mref_meta[];
/////////////////////////////////////////////////////////////////////////
extern struct mars_global *mars_global;
extern void mars_trigger(void);
extern int mars_power_button(struct mars_brick *brick, bool val);
extern void mars_power_led_on(struct mars_brick *brick, bool val);
extern void mars_power_led_off(struct mars_brick *brick, bool val);
extern int mars_power_button_recursive(struct mars_brick *brick, bool val, int timeout);
/////////////////////////////////////////////////////////////////////////
#ifdef _STRATEGY // call this only in strategy bricks, never in ordinary bricks
#define MARS_ARGV_MAX 4
#define MARS_PATH_MAX 64
extern char *my_id(void);
#define MARS_DENT(TYPE) \
struct list_head dent_link; \
struct list_head brick_list; \
struct TYPE *d_parent; \
char *d_argv[MARS_ARGV_MAX]; /* for internal use, will be automatically deallocated*/ \
char *d_args; /* ditto uninterpreted */ \
char *d_name; /* current path component */ \
char *d_rest; /* some "meaningful" rest of d_name*/ \
char *d_path; /* full absolute path */ \
int d_namelen; \
int d_pathlen; \
int d_depth; \
unsigned int d_type; /* from readdir() => often DT_UNKNOWN => don't rely on it, use new_stat.mode instead */ \
int d_class; /* for pre-grouping order */ \
int d_serial; /* for pre-grouping order */ \
int d_version; /* dynamic programming per call of mars_ent_work() */ \
bool d_activate; /* tells whether activation should start */ \
bool d_kill_inactive; /* whether !d_activate should kill operation */ \
char d_once_error; \
struct kstat new_stat; \
struct kstat old_stat; \
char *new_link; \
char *old_link; \
struct mars_global *d_global; \
void *d_private;
struct mars_dent {
MARS_DENT(mars_dent);
};
extern const struct meta mars_timespec_meta[];
extern const struct meta mars_kstat_meta[];
extern const struct meta mars_dent_meta[];
struct mars_global {
struct semaphore mutex;
struct generic_switch global_power;
struct list_head dent_anchor;
struct list_head brick_anchor;
volatile bool main_trigger;
wait_queue_head_t main_event;
//void *private;
};
typedef int (*mars_dent_checker)(const char *path, const char *name, int namlen, unsigned int d_type, int *prefix, int *serial);
typedef int (*mars_dent_worker)(struct mars_global *global, struct mars_dent *dent, bool direction);
extern int mars_dent_work(struct mars_global *global, char *dirname, int allocsize, mars_dent_checker checker, mars_dent_worker worker, void *buf, int maxdepth);
extern struct mars_dent *_mars_find_dent(struct mars_global *global, const char *path);
extern struct mars_dent *mars_find_dent(struct mars_global *global, const char *path);
extern void mars_kill_dent(struct mars_dent *dent);
extern void mars_free_dent(struct mars_dent *dent);
extern void mars_free_dent_all(struct list_head *anchor);
// low-level brick instantiation
extern struct mars_brick *mars_find_brick(struct mars_global *global, const void *brick_type, const char *path);
extern struct mars_brick *mars_make_brick(struct mars_global *global, struct mars_dent *belongs, const void *_brick_type, const char *path, const char *name);
extern int mars_free_brick(struct mars_brick *brick);
extern int mars_kill_brick(struct mars_brick *brick);
// mid-level brick instantiation (identity is based on path strings)
extern char *vpath_make(const char *fmt, va_list *args);
extern char *path_make(const char *fmt, ...);
extern struct mars_brick *path_find_brick(struct mars_global *global, const void *brick_type, const char *fmt, ...);
/* Create a new brick and connect its inputs to a set of predecessors.
* When @timeout > 0, switch on the brick as well as its predecessors.
*/
extern struct mars_brick *make_brick_all(
struct mars_global *global,
struct mars_dent *belongs,
int timeout,
const char *new_name,
const struct generic_brick_type *new_brick_type,
const struct generic_brick_type *prev_brick_type[],
const char *new_fmt,
const char *prev_fmt[],
int prev_count,
...
);
// general MARS infrastructure
#define MARS_ERR_ONCE(dent, args...) if (!dent->d_once_error++) MARS_ERR(args)
/* General fs wrappers (for abstraction)
*/
extern int mars_lstat(const char *path, struct kstat *stat);
extern int mars_mkdir(const char *path);
extern int mars_symlink(const char *oldpath, const char *newpath, const struct timespec *stamp, uid_t uid);
extern int mars_rename(const char *oldpath, const char *newpath);
extern int mars_chmod(const char *path, mode_t mode);
extern int mars_lchown(const char *path, uid_t uid);
#endif // _STRATEGY
/* Some special brick types for avoidance of cyclic references.
*
* The client/server network bricks use this for independent instantiation
* from the main instantiation logic (separate modprobe for mars_server
* is possible).
*/
extern const struct generic_brick_type *_client_brick_type;
extern const struct generic_brick_type *_aio_brick_type;
/* Kludge: our kernel threads will have no mm context, but need one
* for stuff like ioctx_alloc() / aio_setup_ring() etc
* which expect userspace resources.
* We fake one.
* TODO: factor out the userspace stuff from AIO such that
* this fake is no longer necessary.
* Even better: replace do_mmap() in AIO stuff by something
* more friendly to kernelspace apps.
*/
#include <linux/mmu_context.h>
extern struct mm_struct *mm_fake;
inline void set_fake(void)
{
mm_fake = current->mm;
if (mm_fake) {
atomic_inc(&mm_fake->mm_count);
atomic_inc(&mm_fake->mm_users);
}
}
inline void put_fake(void)
{
if (mm_fake) {
atomic_dec(&mm_fake->mm_users);
mmput(mm_fake);
mm_fake = NULL;
}
}
inline struct mm_struct *fake_mm(void)
{
#if 0
if (!current->mm) {
// will be never released.... ;)
atomic_inc(&(current->mm = &init_mm)->mm_count);
}
return NULL;
#else
struct mm_struct *old = current->mm;
use_mm(mm_fake);
return old;
#endif
}
/* Cleanup faked mm, otherwise do_exit() will crash
*/
inline void cleanup_mm(struct mm_struct *old)
{
#if 0
if (current->mm == &init_mm) {
current->mm = NULL;
}
#else
unuse_mm(old);
#endif
#if 1
for (;;) msleep(1000);
#endif
}
#endif