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[linux-2.6] / drivers / oprofile / event_buffer.c
1 /**
2  * @file event_buffer.c
3  *
4  * @remark Copyright 2002 OProfile authors
5  * @remark Read the file COPYING
6  *
7  * @author John Levon <levon@movementarian.org>
8  *
9  * This is the global event buffer that the user-space
10  * daemon reads from. The event buffer is an untyped array
11  * of unsigned longs. Entries are prefixed by the
12  * escape value ESCAPE_CODE followed by an identifying code.
13  */
14
15 #include <linux/vmalloc.h>
16 #include <linux/oprofile.h>
17 #include <linux/sched.h>
18 #include <linux/capability.h>
19 #include <linux/dcookies.h>
20 #include <linux/fs.h>
21 #include <asm/uaccess.h>
22  
23 #include "oprof.h"
24 #include "event_buffer.h"
25 #include "oprofile_stats.h"
26
27 DEFINE_MUTEX(buffer_mutex);
28  
29 static unsigned long buffer_opened;
30 static DECLARE_WAIT_QUEUE_HEAD(buffer_wait);
31 static unsigned long * event_buffer;
32 static unsigned long buffer_size;
33 static unsigned long buffer_watershed;
34 static size_t buffer_pos;
35 /* atomic_t because wait_event checks it outside of buffer_mutex */
36 static atomic_t buffer_ready = ATOMIC_INIT(0);
37
38 /* Add an entry to the event buffer. When we
39  * get near to the end we wake up the process
40  * sleeping on the read() of the file.
41  */
42 void add_event_entry(unsigned long value)
43 {
44         if (buffer_pos == buffer_size) {
45                 atomic_inc(&oprofile_stats.event_lost_overflow);
46                 return;
47         }
48
49         event_buffer[buffer_pos] = value;
50         if (++buffer_pos == buffer_size - buffer_watershed) {
51                 atomic_set(&buffer_ready, 1);
52                 wake_up(&buffer_wait);
53         }
54 }
55
56
57 /* Wake up the waiting process if any. This happens
58  * on "echo 0 >/dev/oprofile/enable" so the daemon
59  * processes the data remaining in the event buffer.
60  */
61 void wake_up_buffer_waiter(void)
62 {
63         mutex_lock(&buffer_mutex);
64         atomic_set(&buffer_ready, 1);
65         wake_up(&buffer_wait);
66         mutex_unlock(&buffer_mutex);
67 }
68
69  
70 int alloc_event_buffer(void)
71 {
72         int err = -ENOMEM;
73         unsigned long flags;
74
75         spin_lock_irqsave(&oprofilefs_lock, flags);
76         buffer_size = fs_buffer_size;
77         buffer_watershed = fs_buffer_watershed;
78         spin_unlock_irqrestore(&oprofilefs_lock, flags);
79  
80         if (buffer_watershed >= buffer_size)
81                 return -EINVAL;
82  
83         event_buffer = vmalloc(sizeof(unsigned long) * buffer_size);
84         if (!event_buffer)
85                 goto out; 
86
87         err = 0;
88 out:
89         return err;
90 }
91
92
93 void free_event_buffer(void)
94 {
95         vfree(event_buffer);
96 }
97
98  
99 static int event_buffer_open(struct inode * inode, struct file * file)
100 {
101         int err = -EPERM;
102
103         if (!capable(CAP_SYS_ADMIN))
104                 return -EPERM;
105
106         if (test_and_set_bit(0, &buffer_opened))
107                 return -EBUSY;
108
109         /* Register as a user of dcookies
110          * to ensure they persist for the lifetime of
111          * the open event file
112          */
113         err = -EINVAL;
114         file->private_data = dcookie_register();
115         if (!file->private_data)
116                 goto out;
117                  
118         if ((err = oprofile_setup()))
119                 goto fail;
120
121         /* NB: the actual start happens from userspace
122          * echo 1 >/dev/oprofile/enable
123          */
124  
125         return 0;
126
127 fail:
128         dcookie_unregister(file->private_data);
129 out:
130         clear_bit(0, &buffer_opened);
131         return err;
132 }
133
134
135 static int event_buffer_release(struct inode * inode, struct file * file)
136 {
137         oprofile_stop();
138         oprofile_shutdown();
139         dcookie_unregister(file->private_data);
140         buffer_pos = 0;
141         atomic_set(&buffer_ready, 0);
142         clear_bit(0, &buffer_opened);
143         return 0;
144 }
145
146
147 static ssize_t event_buffer_read(struct file * file, char __user * buf,
148                                  size_t count, loff_t * offset)
149 {
150         int retval = -EINVAL;
151         size_t const max = buffer_size * sizeof(unsigned long);
152
153         /* handling partial reads is more trouble than it's worth */
154         if (count != max || *offset)
155                 return -EINVAL;
156
157         wait_event_interruptible(buffer_wait, atomic_read(&buffer_ready));
158
159         if (signal_pending(current))
160                 return -EINTR;
161
162         /* can't currently happen */
163         if (!atomic_read(&buffer_ready))
164                 return -EAGAIN;
165
166         mutex_lock(&buffer_mutex);
167
168         atomic_set(&buffer_ready, 0);
169
170         retval = -EFAULT;
171
172         count = buffer_pos * sizeof(unsigned long);
173  
174         if (copy_to_user(buf, event_buffer, count))
175                 goto out;
176
177         retval = count;
178         buffer_pos = 0;
179  
180 out:
181         mutex_unlock(&buffer_mutex);
182         return retval;
183 }
184  
185 const struct file_operations event_buffer_fops = {
186         .open           = event_buffer_open,
187         .release        = event_buffer_release,
188         .read           = event_buffer_read,
189 };