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[lttng-ust.git] / ustd / lowlevel.c
1 /* Copyright (C) 2009 Pierre-Marc Fournier
2 *
3 * This library is free software; you can redistribute it and/or
4 * modify it under the terms of the GNU Lesser General Public
5 * License as published by the Free Software Foundation; either
6 * version 2.1 of the License, or (at your option) any later version.
7 *
8 * This library is distributed in the hope that it will be useful,
9 * but WITHOUT ANY WARRANTY; without even the implied warranty of
10 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
11 * Lesser General Public License for more details.
12 *
13 * You should have received a copy of the GNU Lesser General Public
14 * License along with this library; if not, write to the Free Software
15 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
16 */
17
18 #include <assert.h>
19 #include <byteswap.h>
20
21 #include "buffers.h"
22 #include "tracer.h"
23 #include "ustd.h"
24 #include "usterr.h"
25
26 /* This truncates to an offset in the buffer. */
27 #define USTD_BUFFER_TRUNC(offset, bufinfo) \
28 ((offset) & (~(((bufinfo)->subbuf_size*(bufinfo)->n_subbufs)-1)))
29
30 #define LTT_MAGIC_NUMBER 0x00D6B7ED
31 #define LTT_REV_MAGIC_NUMBER 0xEDB7D600
32
33 /* Returns the size of a subbuffer size. This is the size that
34 * will need to be written to disk.
35 *
36 * @subbuffer: pointer to the beginning of the subbuffer (the
37 * beginning of its header)
38 */
39
40 size_t subbuffer_data_size(void *subbuf)
41 {
42 struct ltt_subbuffer_header *header = subbuf;
43 int reverse;
44 u32 data_size;
45
46 if(header->magic_number == LTT_MAGIC_NUMBER) {
47 reverse = 0;
48 }
49 else if(header->magic_number == LTT_REV_MAGIC_NUMBER) {
50 reverse = 1;
51 }
52 else {
53 return -1;
54 }
55
56 data_size = header->sb_size;
57 if(reverse)
58 data_size = bswap_32(data_size);
59
60 return data_size;
61 }
62
63
64 void finish_consuming_dead_subbuffer(struct buffer_info *buf)
65 {
66 struct ust_buffer *ustbuf = buf->bufstruct_mem;
67
68 long write_offset = local_read(&ustbuf->offset);
69 long consumed_offset = atomic_long_read(&ustbuf->consumed);
70
71 long i_subbuf;
72
73 DBG("processing dead buffer (%s)", buf->name);
74 DBG("consumed offset is %ld (%s)", consumed_offset, buf->name);
75 DBG("write offset is %ld (%s)", write_offset, buf->name);
76
77 /* First subbuf that we need to consume now. It is not modulo'd.
78 * Consumed_offset is the next byte to consume. */
79 long first_subbuf = consumed_offset / buf->subbuf_size;
80 /* Last subbuf that we need to consume now. It is not modulo'd.
81 * Write_offset is the next place to write so write_offset-1 is the
82 * last place written. */
83 long last_subbuf = (write_offset - 1) / buf->subbuf_size;
84
85 DBG("first_subbuf=%ld", first_subbuf);
86 DBG("last_subbuf=%ld", last_subbuf);
87
88 if(last_subbuf - first_subbuf >= buf->n_subbufs) {
89 DBG("an overflow has occurred, nothing can be recovered");
90 return;
91 }
92
93 /* Iterate on subbuffers to recover. */
94 for(i_subbuf = first_subbuf % buf->n_subbufs; ; i_subbuf++, i_subbuf %= buf->n_subbufs) {
95 void *tmp;
96 /* commit_seq is the offset in the buffer of the end of the last sequential commit.
97 * Bytes beyond this limit cannot be recovered. This is a free-running counter. */
98 long commit_seq = local_read(&ustbuf->commit_seq[i_subbuf]);
99
100 unsigned long valid_length = buf->subbuf_size;
101 long n_subbufs_order = get_count_order(buf->n_subbufs);
102 long commit_seq_mask = (~0UL >> n_subbufs_order);
103
104 struct ltt_subbuffer_header *header = (struct ltt_subbuffer_header *)((char *)buf->mem+i_subbuf*buf->subbuf_size);
105
106 int pad_size;
107
108 if((commit_seq & commit_seq_mask) == 0) {
109 /* There is nothing to do. */
110 /* FIXME: is this needed? */
111 break;
112 }
113
114 /* Check if subbuf was fully written. This is from Mathieu's algorithm/paper. */
115 /* FIXME: not sure data_size = 0xffffffff when the buffer is not full. It might
116 * take the value of the header size initially */
117 if (((commit_seq - buf->subbuf_size) & commit_seq_mask)
118 - (USTD_BUFFER_TRUNC(consumed_offset, buf) >> n_subbufs_order) == 0
119 && header->data_size != 0xffffffff && header->sb_size != 0xffffffff) {
120 /* If it was, we only check the data_size. This is the amount of valid data at
121 * the beginning of the subbuffer. */
122 valid_length = header->data_size;
123 DBG("writing full subbuffer (%d) with valid_length = %ld", i_subbuf, valid_length);
124 }
125 else {
126 /* If the subbuffer was not fully written, then we don't check data_size because
127 * it hasn't been written yet. Instead we check commit_seq and use it to choose
128 * a value for data_size. The viewer will need this value when parsing.
129 */
130
131 valid_length = commit_seq & (buf->subbuf_size-1);
132 DBG("writing unfull subbuffer (%d) with valid_length = %ld", i_subbuf, valid_length);
133 header->data_size = valid_length;
134 header->sb_size = PAGE_ALIGN(valid_length);
135 assert(i_subbuf == (last_subbuf % buf->n_subbufs));
136 }
137
138
139 patient_write(buf->file_fd, buf->mem + i_subbuf * buf->subbuf_size, valid_length);
140
141 /* pad with empty bytes */
142 pad_size = PAGE_ALIGN(valid_length)-valid_length;
143 if(pad_size) {
144 tmp = malloc(pad_size);
145 memset(tmp, 0, pad_size);
146 patient_write(buf->file_fd, tmp, pad_size);
147 free(tmp);
148 }
149
150 if(i_subbuf == last_subbuf % buf->n_subbufs)
151 break;
152 }
153 }
154
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