From: Pierre-Marc Fournier Date: Tue, 20 Oct 2009 18:08:52 +0000 (-0400) Subject: Rewrite last GPL bits in relay.c and relay.h X-Git-Tag: v0.1~45 X-Git-Url: https://git.lttng.org./?a=commitdiff_plain;h=b5b073e22d34bec71259d39b8946354f170f01a9;p=ust.git Rewrite last GPL bits in relay.c and relay.h Also update other files accordingly. --- diff --git a/libust/Makefile.am b/libust/Makefile.am index 6d99d0d..087dc0a 100644 --- a/libust/Makefile.am +++ b/libust/Makefile.am @@ -1,7 +1,7 @@ AM_CPPFLAGS = -I$(top_srcdir)/include -I$(top_srcdir)/libustcomm lib_LTLIBRARIES = libust.la -libust_la_SOURCES = buffer.h marker.c tracepoint.c channels.c channels.h marker-control.c marker-control.h relay.c relay.h tracer.c tracer.h tracercore.c tracercore.h serialize.c tracectl.c $(top_builddir)/libustcomm/ustcomm.c +libust_la_SOURCES = marker.c tracepoint.c channels.c channels.h marker-control.c marker-control.h buffers.c buffers.h tracer.c tracer.h tracercore.c tracercore.h serialize.c tracectl.c $(top_builddir)/libustcomm/ustcomm.c libust_la_LDFLAGS = -no-undefined -version-info 0:0:0 libust_la_LIBADD = -lpthread libust_la_CFLAGS = -DUST_COMPONENT="libust" diff --git a/libust/buffer.h b/libust/buffer.h deleted file mode 100644 index 086f55c..0000000 --- a/libust/buffer.h +++ /dev/null @@ -1,39 +0,0 @@ -/* Copyright (C) 2005-2009 Mathieu Desnoyers - * - * This library is free software; you can redistribute it and/or - * modify it under the terms of the GNU Lesser General Public - * License as published by the Free Software Foundation; either - * version 2.1 of the License, or (at your option) any later version. - * - * This library 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 - * Lesser General Public License for more details. - * - * You should have received a copy of the GNU Lesser General Public - * License along with this library; if not, write to the Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA - */ - -#ifndef UST_BUFFER_H -#define UST_BUFFER_H - -/* Buffer offset macros */ - -/* - * BUFFER_TRUNC zeroes the subbuffer offset and the subbuffer number parts of - * the offset, which leaves only the buffer number. - */ -#define BUFFER_TRUNC(offset, chan) \ - ((offset) & (~((chan)->alloc_size-1))) -#define BUFFER_OFFSET(offset, chan) ((offset) & ((chan)->alloc_size - 1)) -#define SUBBUF_OFFSET(offset, chan) ((offset) & ((chan)->subbuf_size - 1)) -#define SUBBUF_ALIGN(offset, chan) \ - (((offset) + (chan)->subbuf_size) & (~((chan)->subbuf_size - 1))) -#define SUBBUF_TRUNC(offset, chan) \ - ((offset) & (~((chan)->subbuf_size - 1))) -#define SUBBUF_INDEX(offset, chan) \ - (BUFFER_OFFSET((offset), chan) >> (chan)->subbuf_size_order) - - -#endif /* UST_BUFFER_H */ diff --git a/libust/buffers.c b/libust/buffers.c new file mode 100644 index 0000000..f3331d0 --- /dev/null +++ b/libust/buffers.c @@ -0,0 +1,1422 @@ +/* + * buffers.c + * LTTng userspace tracer buffering system + * + * Copyright (C) 2009 - Pierre-Marc Fournier (pierre-marc dot fournier at polymtl dot ca) + * Copyright (C) 2008 - Mathieu Desnoyers (mathieu.desnoyers@polymtl.ca) + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; either + * version 2.1 of the License, or (at your option) any later version. + * + * This library 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 + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + */ + +#include +#include +#include +#include +#include +#include +#include "buffers.h" +#include "channels.h" +#include "tracer.h" +#include "tracercore.h" +#include "usterr.h" + +static DEFINE_MUTEX(ust_buffers_channels_mutex); +static LIST_HEAD(ust_buffers_channels); + +static int ust_buffers_init_buffer(struct ltt_trace_struct *trace, + struct ust_channel *ltt_chan, + struct ust_buffer *buf, + unsigned int n_subbufs); + +static int ust_buffers_alloc_buf(struct ust_buffer *buf, size_t *size) +{ + void *ptr; + int result; + + *size = PAGE_ALIGN(*size); + + result = buf->shmid = shmget(getpid(), *size, IPC_CREAT | IPC_EXCL | 0700); + if(result == -1 && errno == EINVAL) { + ERR("shmget() returned EINVAL; maybe /proc/sys/kernel/shmmax should be increased."); + return -1; + } + else if(result == -1) { + PERROR("shmget"); + return -1; + } + + ptr = shmat(buf->shmid, NULL, 0); + if(ptr == (void *) -1) { + perror("shmat"); + goto destroy_shmem; + } + + /* Already mark the shared memory for destruction. This will occur only + * when all users have detached. + */ + result = shmctl(buf->shmid, IPC_RMID, NULL); + if(result == -1) { + perror("shmctl"); + return -1; + } + + buf->buf_data = ptr; + buf->buf_size = *size; + + return 0; + + destroy_shmem: + result = shmctl(buf->shmid, IPC_RMID, NULL); + if(result == -1) { + perror("shmctl"); + } + + return -1; +} + +static struct ust_buffer *ust_buffers_create_buf(struct ust_channel *channel) +{ + int result; + + result = ust_buffers_alloc_buf(channel->buf, &channel->alloc_size); + if(result) + goto free_buf; + + ((struct ust_buffer *)channel->buf)->chan = channel; + kref_get(&channel->kref); + return channel->buf; + +free_buf: + return NULL; +} + +static void ust_buffers_destroy_channel(struct kref *kref) +{ + struct ust_channel *chan = container_of(kref, struct ust_channel, kref); + free(chan); +} + +static void ust_buffers_destroy_buf(struct ust_buffer *buf) +{ + struct ust_channel *chan = buf->chan; + int result; + + result = munmap(buf->buf_data, buf->buf_size); + if(result == -1) { + PERROR("munmap"); + } + + free(buf); + kref_put(&chan->kref, ust_buffers_destroy_channel); +} + +/* called from kref_put */ +static void ust_buffers_remove_buf(struct kref *kref) +{ + struct ust_buffer *buf = container_of(kref, struct ust_buffer, kref); + ust_buffers_destroy_buf(buf); +} + +static struct ust_buffer *ust_buffers_open_buf(struct ust_channel *chan) +{ + struct ust_buffer *buf = NULL; + int err; + + buf = ust_buffers_create_buf(chan); + if (!buf) + return NULL; + + kref_init(&buf->kref); + + err = ust_buffers_init_buffer(chan->trace, chan, buf, chan->subbuf_cnt); + + if (err) + return ERR_PTR(err); + + return buf; + + /* FIXME: decrementally destroy on error? */ +} + +/** + * ust_buffers_close_buf - close a channel buffer + * @buf: buffer + */ +static void ust_buffers_close_buf(struct ust_buffer *buf) +{ + kref_put(&buf->kref, ust_buffers_remove_buf); +} + +int ust_buffers_channel_open(struct ust_channel *chan, size_t subbuf_size, size_t subbuf_cnt) +{ + if(subbuf_size == 0 || subbuf_cnt == 0) + return -1; + + chan->version = UST_CHANNEL_VERSION; + chan->subbuf_cnt = subbuf_cnt; + chan->subbuf_size = subbuf_size; + chan->subbuf_size_order = get_count_order(subbuf_size); + chan->alloc_size = FIX_SIZE(subbuf_size * subbuf_cnt); + kref_init(&chan->kref); + + mutex_lock(&ust_buffers_channels_mutex); + chan->buf = ust_buffers_open_buf(chan); + if (!chan->buf) + goto error; + list_add(&chan->list, &ust_buffers_channels); + mutex_unlock(&ust_buffers_channels_mutex); + + return 0; + + error: + kref_put(&chan->kref, ust_buffers_destroy_channel); + mutex_unlock(&ust_buffers_channels_mutex); + return -1; +} + +void ust_buffers_channel_close(struct ust_channel *chan) +{ + if (!chan) + return; + + mutex_lock(&ust_buffers_channels_mutex); + if (chan->buf) + ust_buffers_close_buf(chan->buf); + + list_del(&chan->list); + kref_put(&chan->kref, ust_buffers_destroy_channel); + mutex_unlock(&ust_buffers_channels_mutex); +} + +/* _ust_buffers_write() + * + * @buf: destination buffer + * @offset: offset in destination + * @src: source buffer + * @len: length of source + * @cpy: already copied + */ + +void _ust_buffers_write(struct ust_buffer *buf, size_t offset, + const void *src, size_t len, ssize_t cpy) +{ + do { + len -= cpy; + src += cpy; + offset += cpy; + WARN_ON(offset >= buf->buf_size); + + cpy = min_t(size_t, len, buf->buf_size - offset); + ust_buffers_do_copy(buf->buf_data + offset, src, cpy); + } while (unlikely(len != cpy)); +} + +/** + * ltt_buffers_offset_address - get address of a location within the buffer + * @buf : buffer + * @offset : offset within the buffer. + * + * Return the address where a given offset is located. + * Should be used to get the current subbuffer header pointer. Given we know + * it's never on a page boundary, it's safe to write directly to this address, + * as long as the write is never bigger than a page size. + */ +void *ltt_buffers_offset_address(struct ust_buffer *buf, size_t offset) +{ + return ((char *)buf->buf_data)+offset; +} + +/* + * ------- + */ + +/* + * Last TSC comparison functions. Check if the current TSC overflows + * LTT_TSC_BITS bits from the last TSC read. Reads and writes last_tsc + * atomically. + */ + +/* FIXME: does this test work properly? */ +#if (BITS_PER_LONG == 32) +static inline void save_last_tsc(struct ltt_channel_buf_struct *ltt_buf, + u64 tsc) +{ + ltt_buf->last_tsc = (unsigned long)(tsc >> LTT_TSC_BITS); +} + +static inline int last_tsc_overflow(struct ltt_channel_buf_struct *ltt_buf, + u64 tsc) +{ + unsigned long tsc_shifted = (unsigned long)(tsc >> LTT_TSC_BITS); + + if (unlikely((tsc_shifted - ltt_buf->last_tsc))) + return 1; + else + return 0; +} +#else +static inline void save_last_tsc(struct ust_buffer *ltt_buf, + u64 tsc) +{ + ltt_buf->last_tsc = (unsigned long)tsc; +} + +static inline int last_tsc_overflow(struct ust_buffer *ltt_buf, + u64 tsc) +{ + if (unlikely((tsc - ltt_buf->last_tsc) >> LTT_TSC_BITS)) + return 1; + else + return 0; +} +#endif + +/* + * A switch is done during tracing or as a final flush after tracing (so it + * won't write in the new sub-buffer). + */ +enum force_switch_mode { FORCE_ACTIVE, FORCE_FLUSH }; + +static void ust_buffers_destroy_buffer(struct ust_channel *ltt_chan); + +static void ltt_force_switch(struct ust_buffer *buf, + enum force_switch_mode mode); + +/* + * Trace callbacks + */ +static void ltt_buffer_begin_callback(struct ust_buffer *buf, + u64 tsc, unsigned int subbuf_idx) +{ + struct ust_channel *channel = buf->chan; + struct ltt_subbuffer_header *header = + (struct ltt_subbuffer_header *) + ltt_buffers_offset_address(buf, + subbuf_idx * buf->chan->subbuf_size); + + header->cycle_count_begin = tsc; + header->lost_size = 0xFFFFFFFF; /* for debugging */ + header->buf_size = buf->chan->subbuf_size; + ltt_write_trace_header(channel->trace, header); +} + +/* + * offset is assumed to never be 0 here : never deliver a completely empty + * subbuffer. The lost size is between 0 and subbuf_size-1. + */ +static notrace void ltt_buffer_end_callback(struct ust_buffer *buf, + u64 tsc, unsigned int offset, unsigned int subbuf_idx) +{ + struct ltt_subbuffer_header *header = + (struct ltt_subbuffer_header *) + ltt_buffers_offset_address(buf, + subbuf_idx * buf->chan->subbuf_size); + + header->lost_size = SUBBUF_OFFSET((buf->chan->subbuf_size - offset), + buf->chan); + header->cycle_count_end = tsc; + header->events_lost = local_read(&buf->events_lost); + header->subbuf_corrupt = local_read(&buf->corrupted_subbuffers); + +} + +void (*wake_consumer)(void *, int) = NULL; + +void relay_set_wake_consumer(void (*wake)(void *, int)) +{ + wake_consumer = wake; +} + +void relay_wake_consumer(void *arg, int finished) +{ + if(wake_consumer) + wake_consumer(arg, finished); +} + +static notrace void ltt_deliver(struct ust_buffer *buf, unsigned int subbuf_idx, + long commit_count) +{ + int result; + +//ust// #ifdef CONFIG_LTT_VMCORE + local_set(&buf->commit_seq[subbuf_idx], commit_count); +//ust// #endif + + /* wakeup consumer */ + result = write(buf->data_ready_fd_write, "1", 1); + if(result == -1) { + PERROR("write (in ltt_relay_buffer_flush)"); + ERR("this should never happen!"); + } +//ust// atomic_set(<t_buf->wakeup_readers, 1); +} + +/* + * This function should not be called from NMI interrupt context + */ +static notrace void ltt_buf_unfull(struct ust_buffer *buf, + unsigned int subbuf_idx, + long offset) +{ +//ust// struct ltt_channel_struct *ltt_channel = +//ust// (struct ltt_channel_struct *)buf->chan->private_data; +//ust// struct ltt_channel_buf_struct *ltt_buf = ltt_channel->buf; +//ust// +//ust// ltt_relay_wake_writers(ltt_buf); +} + +int ust_buffers_do_get_subbuf(struct ust_buffer *buf, long *pconsumed_old) +{ + struct ust_channel *channel = buf->chan; + long consumed_old, consumed_idx, commit_count, write_offset; + consumed_old = atomic_long_read(&buf->consumed); + consumed_idx = SUBBUF_INDEX(consumed_old, buf->chan); + commit_count = local_read(&buf->commit_count[consumed_idx]); + /* + * Make sure we read the commit count before reading the buffer + * data and the write offset. Correct consumed offset ordering + * wrt commit count is insured by the use of cmpxchg to update + * the consumed offset. + */ + smp_rmb(); + write_offset = local_read(&buf->offset); + /* + * Check that the subbuffer we are trying to consume has been + * already fully committed. + */ + if (((commit_count - buf->chan->subbuf_size) + & channel->commit_count_mask) + - (BUFFER_TRUNC(consumed_old, buf->chan) + >> channel->n_subbufs_order) + != 0) { + return -EAGAIN; + } + /* + * Check that we are not about to read the same subbuffer in + * which the writer head is. + */ + if ((SUBBUF_TRUNC(write_offset, buf->chan) + - SUBBUF_TRUNC(consumed_old, buf->chan)) + == 0) { + return -EAGAIN; + } + + *pconsumed_old = consumed_old; + return 0; +} + +int ust_buffers_do_put_subbuf(struct ust_buffer *buf, u32 uconsumed_old) +{ + long consumed_new, consumed_old; + + consumed_old = atomic_long_read(&buf->consumed); + consumed_old = consumed_old & (~0xFFFFFFFFL); + consumed_old = consumed_old | uconsumed_old; + consumed_new = SUBBUF_ALIGN(consumed_old, buf->chan); + +//ust// spin_lock(<t_buf->full_lock); + if (atomic_long_cmpxchg(&buf->consumed, consumed_old, + consumed_new) + != consumed_old) { + /* We have been pushed by the writer : the last + * buffer read _is_ corrupted! It can also + * happen if this is a buffer we never got. */ +//ust// spin_unlock(<t_buf->full_lock); + return -EIO; + } else { + /* tell the client that buffer is now unfull */ + int index; + long data; + index = SUBBUF_INDEX(consumed_old, buf->chan); + data = BUFFER_OFFSET(consumed_old, buf->chan); + ltt_buf_unfull(buf, index, data); +//ust// spin_unlock(<t_buf->full_lock); + } + return 0; +} + +static void ltt_relay_print_subbuffer_errors( + struct ust_channel *channel, + long cons_off) +{ + struct ust_buffer *ltt_buf = channel->buf; + long cons_idx, commit_count, write_offset; + + cons_idx = SUBBUF_INDEX(cons_off, channel); + commit_count = local_read(<t_buf->commit_count[cons_idx]); + /* + * No need to order commit_count and write_offset reads because we + * execute after trace is stopped when there are no readers left. + */ + write_offset = local_read(<t_buf->offset); + WARN( "LTT : unread channel %s offset is %ld " + "and cons_off : %ld\n", + channel->channel_name, write_offset, cons_off); + /* Check each sub-buffer for non filled commit count */ + if (((commit_count - channel->subbuf_size) & channel->commit_count_mask) + - (BUFFER_TRUNC(cons_off, channel) >> channel->n_subbufs_order) != 0) { + ERR("LTT : %s : subbuffer %lu has non filled " + "commit count %lu.\n", + channel->channel_name, cons_idx, commit_count); + } + ERR("LTT : %s : commit count : %lu, subbuf size %zd\n", + channel->channel_name, commit_count, + channel->subbuf_size); +} + +static void ltt_relay_print_errors(struct ltt_trace_struct *trace, + struct ust_channel *channel) +{ + struct ust_buffer *ltt_buf = channel->buf; + long cons_off; + + for (cons_off = atomic_long_read(<t_buf->consumed); + (SUBBUF_TRUNC(local_read(<t_buf->offset), + channel) + - cons_off) > 0; + cons_off = SUBBUF_ALIGN(cons_off, channel)) + ltt_relay_print_subbuffer_errors(channel, cons_off); +} + +static void ltt_relay_print_buffer_errors(struct ust_channel *channel) +{ + struct ltt_trace_struct *trace = channel->trace; + struct ust_buffer *ltt_buf = channel->buf; + + if (local_read(<t_buf->events_lost)) + printk(KERN_ALERT + "LTT : %s : %ld events lost " + "in %s channel.\n", + channel->channel_name, + local_read(<t_buf->events_lost), + channel->channel_name); + if (local_read(<t_buf->corrupted_subbuffers)) + printk(KERN_ALERT + "LTT : %s : %ld corrupted subbuffers " + "in %s channel.\n", + channel->channel_name, + local_read(<t_buf->corrupted_subbuffers), + channel->channel_name); + + ltt_relay_print_errors(trace, channel); +} + +static void ltt_relay_release_channel(struct kref *kref) +{ + struct ust_channel *ltt_chan = container_of(kref, + struct ust_channel, kref); + free(ltt_chan->buf); +} + +/* + * Create ltt buffer. + */ +//ust// static int ltt_relay_create_buffer(struct ltt_trace_struct *trace, +//ust// struct ltt_channel_struct *ltt_chan, struct rchan_buf *buf, +//ust// unsigned int cpu, unsigned int n_subbufs) +//ust// { +//ust// struct ltt_channel_buf_struct *ltt_buf = +//ust// percpu_ptr(ltt_chan->buf, cpu); +//ust// unsigned int j; +//ust// +//ust// ltt_buf->commit_count = +//ust// kzalloc_node(sizeof(ltt_buf->commit_count) * n_subbufs, +//ust// GFP_KERNEL, cpu_to_node(cpu)); +//ust// if (!ltt_buf->commit_count) +//ust// return -ENOMEM; +//ust// kref_get(&trace->kref); +//ust// kref_get(&trace->ltt_transport_kref); +//ust// kref_get(<t_chan->kref); +//ust// local_set(<t_buf->offset, ltt_subbuffer_header_size()); +//ust// atomic_long_set(<t_buf->consumed, 0); +//ust// atomic_long_set(<t_buf->active_readers, 0); +//ust// for (j = 0; j < n_subbufs; j++) +//ust// local_set(<t_buf->commit_count[j], 0); +//ust// init_waitqueue_head(<t_buf->write_wait); +//ust// atomic_set(<t_buf->wakeup_readers, 0); +//ust// spin_lock_init(<t_buf->full_lock); +//ust// +//ust// ltt_buffer_begin_callback(buf, trace->start_tsc, 0); +//ust// /* atomic_add made on local variable on data that belongs to +//ust// * various CPUs : ok because tracing not started (for this cpu). */ +//ust// local_add(ltt_subbuffer_header_size(), <t_buf->commit_count[0]); +//ust// +//ust// local_set(<t_buf->events_lost, 0); +//ust// local_set(<t_buf->corrupted_subbuffers, 0); +//ust// +//ust// return 0; +//ust// } + +static int ust_buffers_init_buffer(struct ltt_trace_struct *trace, + struct ust_channel *ltt_chan, struct ust_buffer *buf, + unsigned int n_subbufs) +{ + unsigned int j; + int fds[2]; + int result; + + buf->commit_count = + zmalloc(sizeof(buf->commit_count) * n_subbufs); + if (!buf->commit_count) + return -ENOMEM; + kref_get(&trace->kref); + kref_get(&trace->ltt_transport_kref); + kref_get(<t_chan->kref); + local_set(&buf->offset, ltt_subbuffer_header_size()); + atomic_long_set(&buf->consumed, 0); + atomic_long_set(&buf->active_readers, 0); + for (j = 0; j < n_subbufs; j++) + local_set(&buf->commit_count[j], 0); +//ust// init_waitqueue_head(&buf->write_wait); +//ust// atomic_set(&buf->wakeup_readers, 0); +//ust// spin_lock_init(&buf->full_lock); + + ltt_buffer_begin_callback(buf, trace->start_tsc, 0); + + local_add(ltt_subbuffer_header_size(), &buf->commit_count[0]); + + local_set(&buf->events_lost, 0); + local_set(&buf->corrupted_subbuffers, 0); + + result = pipe(fds); + if(result == -1) { + PERROR("pipe"); + return -1; + } + buf->data_ready_fd_read = fds[0]; + buf->data_ready_fd_write = fds[1]; + + /* FIXME: do we actually need this? */ + result = fcntl(fds[0], F_SETFL, O_NONBLOCK); + if(result == -1) { + PERROR("fcntl"); + } + +//ust// buf->commit_seq = malloc(sizeof(buf->commit_seq) * n_subbufs); +//ust// if(!ltt_buf->commit_seq) { +//ust// return -1; +//ust// } + + /* FIXME: decrementally destroy on error */ + + return 0; +} + +/* FIXME: use this function */ +static void ust_buffers_destroy_buffer(struct ust_channel *ltt_chan) +{ + struct ltt_trace_struct *trace = ltt_chan->trace; + struct ust_buffer *ltt_buf = ltt_chan->buf; + + kref_put(<t_chan->trace->ltt_transport_kref, + ltt_release_transport); + ltt_relay_print_buffer_errors(ltt_chan); +//ust// free(ltt_buf->commit_seq); + kfree(ltt_buf->commit_count); + ltt_buf->commit_count = NULL; + kref_put(<t_chan->kref, ltt_relay_release_channel); + kref_put(&trace->kref, ltt_release_trace); +//ust// wake_up_interruptible(&trace->kref_wq); +} + +static void ltt_chan_alloc_ltt_buf(struct ust_channel *chan) +{ + void *ptr; + int result; + + /* Get one page */ + /* FIXME: increase size if we have a seq_commit array that overflows the page */ + size_t size = PAGE_ALIGN(1); + + result = chan->buf_shmid = shmget(getpid(), size, IPC_CREAT | IPC_EXCL | 0700); + if(chan->buf_shmid == -1) { + PERROR("shmget"); + return; + } + + ptr = shmat(chan->buf_shmid, NULL, 0); + if(ptr == (void *) -1) { + perror("shmat"); + goto destroy_shmem; + } + + /* Already mark the shared memory for destruction. This will occur only + * when all users have detached. + */ + result = shmctl(chan->buf_shmid, IPC_RMID, NULL); + if(result == -1) { + perror("shmctl"); + return; + } + + chan->buf = ptr; + + return; + + destroy_shmem: + result = shmctl(chan->buf_shmid, IPC_RMID, NULL); + if(result == -1) { + perror("shmctl"); + } + + return; +} + +/* + * Create channel. + */ +static int ust_buffers_create_channel(const char *trace_name, struct ltt_trace_struct *trace, + const char *channel_name, struct ust_channel *ltt_chan, + unsigned int subbuf_size, unsigned int n_subbufs, int overwrite) +{ + int err = 0; + int result; + + kref_init(<t_chan->kref); + + ltt_chan->trace = trace; + ltt_chan->buffer_begin = ltt_buffer_begin_callback; + ltt_chan->buffer_end = ltt_buffer_end_callback; + ltt_chan->overwrite = overwrite; + ltt_chan->n_subbufs_order = get_count_order(n_subbufs); + ltt_chan->commit_count_mask = (~0UL >> ltt_chan->n_subbufs_order); +//ust// ltt_chan->buf = percpu_alloc_mask(sizeof(struct ltt_channel_buf_struct), GFP_KERNEL, cpu_possible_map); + + ltt_chan_alloc_ltt_buf(ltt_chan); + +//ust// ltt_chan->buf = malloc(sizeof(struct ltt_channel_buf_struct)); + if (!ltt_chan->buf) + goto alloc_error; + /* FIXME: handle error of this call */ + result = ust_buffers_channel_open(ltt_chan, subbuf_size, n_subbufs); + if (result == -1) { + printk(KERN_ERR "LTT : Can't open channel for trace %s\n", + trace_name); + goto relay_open_error; + } + + err = 0; + goto end; + +relay_open_error: +//ust// percpu_free(ltt_chan->buf); +alloc_error: + err = EPERM; +end: + return err; +} + +/* + * LTTng channel flush function. + * + * Must be called when no tracing is active in the channel, because of + * accesses across CPUs. + */ +static notrace void ltt_relay_buffer_flush(struct ust_buffer *buf) +{ + int result; + +//ust// buf->finalized = 1; + ltt_force_switch(buf, FORCE_FLUSH); + + result = write(buf->data_ready_fd_write, "1", 1); + if(result == -1) { + PERROR("write (in ltt_relay_buffer_flush)"); + ERR("this should never happen!"); + } +} + +static void ltt_relay_async_wakeup_chan(struct ust_channel *ltt_channel) +{ +//ust// unsigned int i; +//ust// struct rchan *rchan = ltt_channel->trans_channel_data; +//ust// +//ust// for_each_possible_cpu(i) { +//ust// struct ltt_channel_buf_struct *ltt_buf = +//ust// percpu_ptr(ltt_channel->buf, i); +//ust// +//ust// if (atomic_read(<t_buf->wakeup_readers) == 1) { +//ust// atomic_set(<t_buf->wakeup_readers, 0); +//ust// wake_up_interruptible(&rchan->buf[i]->read_wait); +//ust// } +//ust// } +} + +static void ltt_relay_finish_buffer(struct ust_channel *channel) +{ +// int result; + + if (channel->buf) { + struct ust_buffer *buf = channel->buf; + ltt_relay_buffer_flush(buf); +//ust// ltt_relay_wake_writers(ltt_buf); + /* closing the pipe tells the consumer the buffer is finished */ + + //result = write(ltt_buf->data_ready_fd_write, "D", 1); + //if(result == -1) { + // PERROR("write (in ltt_relay_finish_buffer)"); + // ERR("this should never happen!"); + //} + close(buf->data_ready_fd_write); + } +} + + +static void ltt_relay_finish_channel(struct ust_channel *channel) +{ +//ust// unsigned int i; + +//ust// for_each_possible_cpu(i) + ltt_relay_finish_buffer(channel); +} + +static void ltt_relay_remove_channel(struct ust_channel *channel) +{ + ust_buffers_channel_close(channel); + kref_put(&channel->kref, ltt_relay_release_channel); +} + +struct ltt_reserve_switch_offsets { + long begin, end, old; + long begin_switch, end_switch_current, end_switch_old; + long commit_count, reserve_commit_diff; + size_t before_hdr_pad, size; +}; + +/* + * Returns : + * 0 if ok + * !0 if execution must be aborted. + */ +static inline int ltt_relay_try_reserve( + struct ust_channel *channel, struct ust_buffer *buf, + struct ltt_reserve_switch_offsets *offsets, size_t data_size, + u64 *tsc, unsigned int *rflags, int largest_align) +{ + offsets->begin = local_read(&buf->offset); + offsets->old = offsets->begin; + offsets->begin_switch = 0; + offsets->end_switch_current = 0; + offsets->end_switch_old = 0; + + *tsc = trace_clock_read64(); + if (last_tsc_overflow(buf, *tsc)) + *rflags = LTT_RFLAG_ID_SIZE_TSC; + + if (SUBBUF_OFFSET(offsets->begin, buf->chan) == 0) { + offsets->begin_switch = 1; /* For offsets->begin */ + } else { + offsets->size = ust_get_header_size(channel, + offsets->begin, data_size, + &offsets->before_hdr_pad, *rflags); + offsets->size += ltt_align(offsets->begin + offsets->size, + largest_align) + + data_size; + if ((SUBBUF_OFFSET(offsets->begin, buf->chan) + offsets->size) + > buf->chan->subbuf_size) { + offsets->end_switch_old = 1; /* For offsets->old */ + offsets->begin_switch = 1; /* For offsets->begin */ + } + } + if (offsets->begin_switch) { + long subbuf_index; + + if (offsets->end_switch_old) + offsets->begin = SUBBUF_ALIGN(offsets->begin, + buf->chan); + offsets->begin = offsets->begin + ltt_subbuffer_header_size(); + /* Test new buffer integrity */ + subbuf_index = SUBBUF_INDEX(offsets->begin, buf->chan); + offsets->reserve_commit_diff = + (BUFFER_TRUNC(offsets->begin, buf->chan) + >> channel->n_subbufs_order) + - (local_read(&buf->commit_count[subbuf_index]) + & channel->commit_count_mask); + if (offsets->reserve_commit_diff == 0) { + long consumed; + + consumed = atomic_long_read(&buf->consumed); + + /* Next buffer not corrupted. */ + if (!channel->overwrite && + (SUBBUF_TRUNC(offsets->begin, buf->chan) + - SUBBUF_TRUNC(consumed, buf->chan)) + >= channel->alloc_size) { + + long consumed_idx = SUBBUF_INDEX(consumed, buf->chan); + long commit_count = local_read(&buf->commit_count[consumed_idx]); + if(((commit_count - buf->chan->subbuf_size) & channel->commit_count_mask) - (BUFFER_TRUNC(consumed, buf->chan) >> channel->n_subbufs_order) != 0) { + WARN("Event dropped. Caused by non-committed event."); + } + else { + WARN("Event dropped. Caused by non-consumed buffer."); + } + /* + * We do not overwrite non consumed buffers + * and we are full : event is lost. + */ + local_inc(&buf->events_lost); + return -1; + } else { + /* + * next buffer not corrupted, we are either in + * overwrite mode or the buffer is not full. + * It's safe to write in this new subbuffer. + */ + } + } else { + /* + * Next subbuffer corrupted. Force pushing reader even + * in normal mode. It's safe to write in this new + * subbuffer. + */ + } + offsets->size = ust_get_header_size(channel, + offsets->begin, data_size, + &offsets->before_hdr_pad, *rflags); + offsets->size += ltt_align(offsets->begin + offsets->size, + largest_align) + + data_size; + if ((SUBBUF_OFFSET(offsets->begin, buf->chan) + offsets->size) + > buf->chan->subbuf_size) { + /* + * Event too big for subbuffers, report error, don't + * complete the sub-buffer switch. + */ + local_inc(&buf->events_lost); + return -1; + } else { + /* + * We just made a successful buffer switch and the event + * fits in the new subbuffer. Let's write. + */ + } + } else { + /* + * Event fits in the current buffer and we are not on a switch + * boundary. It's safe to write. + */ + } + offsets->end = offsets->begin + offsets->size; + + if ((SUBBUF_OFFSET(offsets->end, buf->chan)) == 0) { + /* + * The offset_end will fall at the very beginning of the next + * subbuffer. + */ + offsets->end_switch_current = 1; /* For offsets->begin */ + } + return 0; +} + +/* + * Returns : + * 0 if ok + * !0 if execution must be aborted. + */ +static inline int ltt_relay_try_switch( + enum force_switch_mode mode, + struct ust_channel *channel, + struct ust_buffer *buf, + struct ltt_reserve_switch_offsets *offsets, + u64 *tsc) +{ + long subbuf_index; + + offsets->begin = local_read(&buf->offset); + offsets->old = offsets->begin; + offsets->begin_switch = 0; + offsets->end_switch_old = 0; + + *tsc = trace_clock_read64(); + + if (SUBBUF_OFFSET(offsets->begin, buf->chan) != 0) { + offsets->begin = SUBBUF_ALIGN(offsets->begin, buf->chan); + offsets->end_switch_old = 1; + } else { + /* we do not have to switch : buffer is empty */ + return -1; + } + if (mode == FORCE_ACTIVE) + offsets->begin += ltt_subbuffer_header_size(); + /* + * Always begin_switch in FORCE_ACTIVE mode. + * Test new buffer integrity + */ + subbuf_index = SUBBUF_INDEX(offsets->begin, buf->chan); + offsets->reserve_commit_diff = + (BUFFER_TRUNC(offsets->begin, buf->chan) + >> channel->n_subbufs_order) + - (local_read(&buf->commit_count[subbuf_index]) + & channel->commit_count_mask); + if (offsets->reserve_commit_diff == 0) { + /* Next buffer not corrupted. */ + if (mode == FORCE_ACTIVE + && !channel->overwrite + && offsets->begin - atomic_long_read(&buf->consumed) + >= channel->alloc_size) { + /* + * We do not overwrite non consumed buffers and we are + * full : ignore switch while tracing is active. + */ + return -1; + } + } else { + /* + * Next subbuffer corrupted. Force pushing reader even in normal + * mode + */ + } + offsets->end = offsets->begin; + return 0; +} + +static inline void ltt_reserve_push_reader( + struct ust_channel *channel, + struct ust_buffer *buf, + struct ltt_reserve_switch_offsets *offsets) +{ + long consumed_old, consumed_new; + + do { + consumed_old = atomic_long_read(&buf->consumed); + /* + * If buffer is in overwrite mode, push the reader consumed + * count if the write position has reached it and we are not + * at the first iteration (don't push the reader farther than + * the writer). This operation can be done concurrently by many + * writers in the same buffer, the writer being at the farthest + * write position sub-buffer index in the buffer being the one + * which will win this loop. + * If the buffer is not in overwrite mode, pushing the reader + * only happens if a sub-buffer is corrupted. + */ + if ((SUBBUF_TRUNC(offsets->end-1, buf->chan) + - SUBBUF_TRUNC(consumed_old, buf->chan)) + >= channel->alloc_size) + consumed_new = SUBBUF_ALIGN(consumed_old, buf->chan); + else { + consumed_new = consumed_old; + break; + } + } while (atomic_long_cmpxchg(&buf->consumed, consumed_old, + consumed_new) != consumed_old); + + if (consumed_old != consumed_new) { + /* + * Reader pushed : we are the winner of the push, we can + * therefore reequilibrate reserve and commit. Atomic increment + * of the commit count permits other writers to play around + * with this variable before us. We keep track of + * corrupted_subbuffers even in overwrite mode : + * we never want to write over a non completely committed + * sub-buffer : possible causes : the buffer size is too low + * compared to the unordered data input, or there is a writer + * that died between the reserve and the commit. + */ + if (offsets->reserve_commit_diff) { + /* + * We have to alter the sub-buffer commit count. + * We do not deliver the previous subbuffer, given it + * was either corrupted or not consumed (overwrite + * mode). + */ + local_add(offsets->reserve_commit_diff, + &buf->commit_count[ + SUBBUF_INDEX(offsets->begin, + buf->chan)]); + if (!channel->overwrite + || offsets->reserve_commit_diff + != channel->subbuf_size) { + /* + * The reserve commit diff was not subbuf_size : + * it means the subbuffer was partly written to + * and is therefore corrupted. If it is multiple + * of subbuffer size and we are in flight + * recorder mode, we are skipping over a whole + * subbuffer. + */ + local_inc(&buf->corrupted_subbuffers); + } + } + } +} + + +/* + * ltt_reserve_switch_old_subbuf: switch old subbuffer + * + * Concurrency safe because we are the last and only thread to alter this + * sub-buffer. As long as it is not delivered and read, no other thread can + * alter the offset, alter the reserve_count or call the + * client_buffer_end_callback on this sub-buffer. + * + * The only remaining threads could be the ones with pending commits. They will + * have to do the deliver themselves. Not concurrency safe in overwrite mode. + * We detect corrupted subbuffers with commit and reserve counts. We keep a + * corrupted sub-buffers count and push the readers across these sub-buffers. + * + * Not concurrency safe if a writer is stalled in a subbuffer and another writer + * switches in, finding out it's corrupted. The result will be than the old + * (uncommited) subbuffer will be declared corrupted, and that the new subbuffer + * will be declared corrupted too because of the commit count adjustment. + * + * Note : offset_old should never be 0 here. + */ +static inline void ltt_reserve_switch_old_subbuf( + struct ust_channel *channel, + struct ust_buffer *buf, + struct ltt_reserve_switch_offsets *offsets, u64 *tsc) +{ + long oldidx = SUBBUF_INDEX(offsets->old - 1, channel); + + channel->buffer_end(buf, *tsc, offsets->old, oldidx); + /* Must write buffer end before incrementing commit count */ + smp_wmb(); + offsets->commit_count = + local_add_return(channel->subbuf_size + - (SUBBUF_OFFSET(offsets->old - 1, channel) + + 1), + &buf->commit_count[oldidx]); + if ((BUFFER_TRUNC(offsets->old - 1, channel) + >> channel->n_subbufs_order) + - ((offsets->commit_count - channel->subbuf_size) + & channel->commit_count_mask) == 0) + ltt_deliver(buf, oldidx, offsets->commit_count); +} + +/* + * ltt_reserve_switch_new_subbuf: Populate new subbuffer. + * + * This code can be executed unordered : writers may already have written to the + * sub-buffer before this code gets executed, caution. The commit makes sure + * that this code is executed before the deliver of this sub-buffer. + */ +static /*inline*/ void ltt_reserve_switch_new_subbuf( + struct ust_channel *channel, + struct ust_buffer *buf, + struct ltt_reserve_switch_offsets *offsets, u64 *tsc) +{ + long beginidx = SUBBUF_INDEX(offsets->begin, channel); + + channel->buffer_begin(buf, *tsc, beginidx); + /* Must write buffer end before incrementing commit count */ + smp_wmb(); + offsets->commit_count = local_add_return(ltt_subbuffer_header_size(), + &buf->commit_count[beginidx]); + /* Check if the written buffer has to be delivered */ + if ((BUFFER_TRUNC(offsets->begin, channel) + >> channel->n_subbufs_order) + - ((offsets->commit_count - channel->subbuf_size) + & channel->commit_count_mask) == 0) + ltt_deliver(buf, beginidx, offsets->commit_count); +} + + +/* + * ltt_reserve_end_switch_current: finish switching current subbuffer + * + * Concurrency safe because we are the last and only thread to alter this + * sub-buffer. As long as it is not delivered and read, no other thread can + * alter the offset, alter the reserve_count or call the + * client_buffer_end_callback on this sub-buffer. + * + * The only remaining threads could be the ones with pending commits. They will + * have to do the deliver themselves. Not concurrency safe in overwrite mode. + * We detect corrupted subbuffers with commit and reserve counts. We keep a + * corrupted sub-buffers count and push the readers across these sub-buffers. + * + * Not concurrency safe if a writer is stalled in a subbuffer and another writer + * switches in, finding out it's corrupted. The result will be than the old + * (uncommited) subbuffer will be declared corrupted, and that the new subbuffer + * will be declared corrupted too because of the commit count adjustment. + */ +static inline void ltt_reserve_end_switch_current( + struct ust_channel *channel, + struct ust_buffer *buf, + struct ltt_reserve_switch_offsets *offsets, u64 *tsc) +{ + long endidx = SUBBUF_INDEX(offsets->end - 1, channel); + + channel->buffer_end(buf, *tsc, offsets->end, endidx); + /* Must write buffer begin before incrementing commit count */ + smp_wmb(); + offsets->commit_count = + local_add_return(channel->subbuf_size + - (SUBBUF_OFFSET(offsets->end - 1, channel) + + 1), + &buf->commit_count[endidx]); + if ((BUFFER_TRUNC(offsets->end - 1, channel) + >> channel->n_subbufs_order) + - ((offsets->commit_count - channel->subbuf_size) + & channel->commit_count_mask) == 0) + ltt_deliver(buf, endidx, offsets->commit_count); +} + +/** + * ltt_relay_reserve_slot - Atomic slot reservation in a LTTng buffer. + * @trace: the trace structure to log to. + * @ltt_channel: channel structure + * @transport_data: data structure specific to ltt relay + * @data_size: size of the variable length data to log. + * @slot_size: pointer to total size of the slot (out) + * @buf_offset : pointer to reserved buffer offset (out) + * @tsc: pointer to the tsc at the slot reservation (out) + * @cpu: cpuid + * + * Return : -ENOSPC if not enough space, else returns 0. + * It will take care of sub-buffer switching. + */ +static notrace int ltt_relay_reserve_slot(struct ltt_trace_struct *trace, + struct ust_channel *channel, void **transport_data, + size_t data_size, size_t *slot_size, long *buf_offset, u64 *tsc, + unsigned int *rflags, int largest_align) +{ + struct ust_buffer *buf = *transport_data = channel->buf; + struct ltt_reserve_switch_offsets offsets; + + offsets.reserve_commit_diff = 0; + offsets.size = 0; + + /* + * Perform retryable operations. + */ + if (ltt_nesting > 4) { + local_inc(&buf->events_lost); + return -EPERM; + } + do { + if (ltt_relay_try_reserve(channel, buf, &offsets, data_size, tsc, rflags, + largest_align)) + return -ENOSPC; + } while (local_cmpxchg(&buf->offset, offsets.old, + offsets.end) != offsets.old); + + /* + * Atomically update last_tsc. This update races against concurrent + * atomic updates, but the race will always cause supplementary full TSC + * events, never the opposite (missing a full TSC event when it would be + * needed). + */ + save_last_tsc(buf, *tsc); + + /* + * Push the reader if necessary + */ + ltt_reserve_push_reader(channel, buf, &offsets); + + /* + * Switch old subbuffer if needed. + */ + if (offsets.end_switch_old) + ltt_reserve_switch_old_subbuf(channel, buf, &offsets, tsc); + + /* + * Populate new subbuffer. + */ + if (offsets.begin_switch) + ltt_reserve_switch_new_subbuf(channel, buf, &offsets, tsc); + + if (offsets.end_switch_current) + ltt_reserve_end_switch_current(channel, buf, &offsets, tsc); + + *slot_size = offsets.size; + *buf_offset = offsets.begin + offsets.before_hdr_pad; + return 0; +} + +/* + * Force a sub-buffer switch for a per-cpu buffer. This operation is + * completely reentrant : can be called while tracing is active with + * absolutely no lock held. + * + * Note, however, that as a local_cmpxchg is used for some atomic + * operations, this function must be called from the CPU which owns the buffer + * for a ACTIVE flush. + */ +static notrace void ltt_force_switch(struct ust_buffer *buf, + enum force_switch_mode mode) +{ + struct ust_channel *channel = buf->chan; + struct ltt_reserve_switch_offsets offsets; + u64 tsc; + + offsets.reserve_commit_diff = 0; + offsets.size = 0; + + /* + * Perform retryable operations. + */ + do { + if (ltt_relay_try_switch(mode, channel, buf, &offsets, &tsc)) + return; + } while (local_cmpxchg(&buf->offset, offsets.old, + offsets.end) != offsets.old); + + /* + * Atomically update last_tsc. This update races against concurrent + * atomic updates, but the race will always cause supplementary full TSC + * events, never the opposite (missing a full TSC event when it would be + * needed). + */ + save_last_tsc(buf, tsc); + + /* + * Push the reader if necessary + */ + if (mode == FORCE_ACTIVE) + ltt_reserve_push_reader(channel, buf, &offsets); + + /* + * Switch old subbuffer if needed. + */ + if (offsets.end_switch_old) + ltt_reserve_switch_old_subbuf(channel, buf, &offsets, &tsc); + + /* + * Populate new subbuffer. + */ + if (mode == FORCE_ACTIVE) + ltt_reserve_switch_new_subbuf(channel, buf, &offsets, &tsc); +} + +static void ltt_relay_print_user_errors(struct ltt_trace_struct *trace, + unsigned int chan_index, size_t data_size, + struct user_dbg_data *dbg) +{ + struct ust_channel *channel; + struct ust_buffer *buf; + + channel = &trace->channels[chan_index]; + buf = channel->buf; + + printk(KERN_ERR "Error in LTT usertrace : " + "buffer full : event lost in blocking " + "mode. Increase LTT_RESERVE_CRITICAL.\n"); + printk(KERN_ERR "LTT nesting level is %u.\n", ltt_nesting); + printk(KERN_ERR "LTT avail size %lu.\n", + dbg->avail_size); + printk(KERN_ERR "avai write : %lu, read : %lu\n", + dbg->write, dbg->read); + + dbg->write = local_read(&buf->offset); + dbg->read = atomic_long_read(&buf->consumed); + + printk(KERN_ERR "LTT cur size %lu.\n", + dbg->write + LTT_RESERVE_CRITICAL + data_size + - SUBBUF_TRUNC(dbg->read, channel)); + printk(KERN_ERR "cur write : %lu, read : %lu\n", + dbg->write, dbg->read); +} + +static struct ltt_transport ust_relay_transport = { + .name = "ustrelay", + .ops = { + .create_channel = ust_buffers_create_channel, + .finish_channel = ltt_relay_finish_channel, + .remove_channel = ltt_relay_remove_channel, + .wakeup_channel = ltt_relay_async_wakeup_chan, +// .commit_slot = ltt_relay_commit_slot, + .reserve_slot = ltt_relay_reserve_slot, + .user_errors = ltt_relay_print_user_errors, + }, +}; + +/* + * for flight recording. must be called after relay_commit. + * This function decrements de subbuffer's lost_size each time the commit count + * reaches back the reserve offset (module subbuffer size). It is useful for + * crash dump. + */ +static /* inline */ void ltt_write_commit_counter(struct ust_buffer *buf, + struct ust_buffer *ltt_buf, + long idx, long buf_offset, long commit_count, size_t data_size) +{ + long offset; + long commit_seq_old; + + offset = buf_offset + data_size; + + /* + * SUBBUF_OFFSET includes commit_count_mask. We can simply + * compare the offsets within the subbuffer without caring about + * buffer full/empty mismatch because offset is never zero here + * (subbuffer header and event headers have non-zero length). + */ + if (unlikely(SUBBUF_OFFSET(offset - commit_count, buf->chan))) + return; + + commit_seq_old = local_read(<t_buf->commit_seq[idx]); + while (commit_seq_old < commit_count) + commit_seq_old = local_cmpxchg(<t_buf->commit_seq[idx], + commit_seq_old, commit_count); +} + +/* + * Atomic unordered slot commit. Increments the commit count in the + * specified sub-buffer, and delivers it if necessary. + * + * Parameters: + * + * @ltt_channel : channel structure + * @transport_data: transport-specific data + * @buf_offset : offset following the event header. + * @data_size : size of the event data. + * @slot_size : size of the reserved slot. + */ +/* FIXME: make this function static inline in the .h! */ +/*static*/ /* inline */ notrace void ltt_commit_slot( + struct ust_channel *channel, + void **transport_data, long buf_offset, + size_t data_size, size_t slot_size) +{ + struct ust_buffer *buf = *transport_data; + long offset_end = buf_offset; + long endidx = SUBBUF_INDEX(offset_end - 1, channel); + long commit_count; + + /* Must write slot data before incrementing commit count */ + smp_wmb(); + commit_count = local_add_return(slot_size, + &buf->commit_count[endidx]); + /* Check if all commits have been done */ + if ((BUFFER_TRUNC(offset_end - 1, channel) + >> channel->n_subbufs_order) + - ((commit_count - channel->subbuf_size) + & channel->commit_count_mask) == 0) + ltt_deliver(buf, endidx, commit_count); + /* + * Update lost_size for each commit. It's needed only for extracting + * ltt buffers from vmcore, after crash. + */ + ltt_write_commit_counter(buf, buf, endidx, + buf_offset, commit_count, data_size); +} + + +static char initialized = 0; + +void __attribute__((constructor)) init_ustrelay_transport(void) +{ + if(!initialized) { + ltt_transport_register(&ust_relay_transport); + initialized = 1; + } +} + +static void __attribute__((destructor)) ltt_relay_exit(void) +{ + ltt_transport_unregister(&ust_relay_transport); +} diff --git a/libust/buffers.h b/libust/buffers.h new file mode 100644 index 0000000..247c7b0 --- /dev/null +++ b/libust/buffers.h @@ -0,0 +1,146 @@ +/* + * buffers.h + * + * Copyright (C) 2009 - Pierre-Marc Fournier (pierre-marc dot fournier at polymtl dot ca) + * Copyright (C) 2008 - Mathieu Desnoyers (mathieu.desnoyers@polymtl.ca) + * + */ + +#ifndef _UST_BUFFERS_H +#define _UST_BUFFERS_H + +#include +#include +#include "channels.h" +#include "buffers.h" + +/* Return the size of the minimum number of pages that can contain x. */ +#define FIX_SIZE(x) ((((x) - 1) & PAGE_MASK) + PAGE_SIZE) + +/* + * BUFFER_TRUNC zeroes the subbuffer offset and the subbuffer number parts of + * the offset, which leaves only the buffer number. + */ +#define BUFFER_TRUNC(offset, chan) \ + ((offset) & (~((chan)->alloc_size-1))) +#define BUFFER_OFFSET(offset, chan) ((offset) & ((chan)->alloc_size - 1)) +#define SUBBUF_OFFSET(offset, chan) ((offset) & ((chan)->subbuf_size - 1)) +#define SUBBUF_ALIGN(offset, chan) \ + (((offset) + (chan)->subbuf_size) & (~((chan)->subbuf_size - 1))) +#define SUBBUF_TRUNC(offset, chan) \ + ((offset) & (~((chan)->subbuf_size - 1))) +#define SUBBUF_INDEX(offset, chan) \ + (BUFFER_OFFSET((offset), chan) >> (chan)->subbuf_size_order) + +/* + * Tracks changes to rchan/rchan_buf structs + */ +#define UST_CHANNEL_VERSION 8 + +struct ust_buffer { + /* First 32 bytes cache-hot cacheline */ + local_t offset; /* Current offset in the buffer */ + local_t *commit_count; /* Commit count per sub-buffer */ + atomic_long_t consumed; /* + * Current offset in the buffer + * standard atomic access (shared) + */ + unsigned long last_tsc; /* + * Last timestamp written in the buffer. + */ + /* End of first 32 bytes cacheline */ + atomic_long_t active_readers; /* + * Active readers count + * standard atomic access (shared) + */ + local_t events_lost; + local_t corrupted_subbuffers; + /* one byte is written to this pipe when data is available, in order + to wake the consumer */ + /* portability: Single byte writes must be as quick as possible. The kernel-side + buffer must be large enough so the writer doesn't block. From the pipe(7) + man page: Since linux 2.6.11, the pipe capacity is 65536 bytes. */ + int data_ready_fd_write; + /* the reading end of the pipe */ + int data_ready_fd_read; + + struct ust_channel *chan; + struct kref kref; + void *buf_data; + size_t buf_size; + int shmid; + + /* commit count per subbuffer; must be at end of struct */ + local_t commit_seq[0] ____cacheline_aligned; +} ____cacheline_aligned; + +extern void _ust_buffers_write(struct ust_buffer *buf, size_t offset, + const void *src, size_t len, ssize_t cpy); + +/* + * Return the address where a given offset is located. + * Should be used to get the current subbuffer header pointer. Given we know + * it's never on a page boundary, it's safe to write directly to this address, + * as long as the write is never bigger than a page size. + */ +extern void *ust_buffers_offset_address(struct ust_buffer *buf, + size_t offset); + +/* FIXME: lttng has a version for systems with inefficient unaligned access */ +static inline void ust_buffers_do_copy(void *dest, const void *src, size_t len) +{ + union { + const void *src; + const u8 *src8; + const u16 *src16; + const u32 *src32; + const u64 *src64; + } u = { .src = src }; + + switch (len) { + case 0: break; + case 1: *(u8 *)dest = *u.src8; + break; + case 2: *(u16 *)dest = *u.src16; + break; + case 4: *(u32 *)dest = *u.src32; + break; + case 8: *(u64 *)dest = *u.src64; + break; + default: + memcpy(dest, src, len); + } +} + +/* FIXME: there is both a static inline and a '_' non static inline version ?? */ +static inline int ust_buffers_write(struct ust_buffer *buf, size_t offset, + const void *src, size_t len) +{ + size_t cpy; + size_t buf_offset = BUFFER_OFFSET(offset, buf->chan); + + assert(buf_offset < buf->chan->subbuf_size*buf->chan->subbuf_cnt); + + cpy = min_t(size_t, len, buf->buf_size - buf_offset); + ust_buffers_do_copy(buf->buf_data + buf_offset, src, cpy); + + if (unlikely(len != cpy)) + _ust_buffers_write(buf, buf_offset, src, len, cpy); + return len; +} + +int ust_buffers_channel_open(struct ust_channel *chan, size_t subbuf_size, size_t n_subbufs); +extern void ust_buffers_channel_close(struct ust_channel *chan); + +extern int ust_buffers_do_get_subbuf(struct ust_buffer *buf, long *pconsumed_old); + +extern int ust_buffers_do_put_subbuf(struct ust_buffer *buf, u32 uconsumed_old); + +extern void init_ustrelay_transport(void); + +/*static*/ /* inline */ notrace void ltt_commit_slot( + struct ust_channel *channel, + void **transport_data, long buf_offset, + size_t data_size, size_t slot_size); + +#endif /* _UST_BUFFERS_H */ diff --git a/libust/channels.c b/libust/channels.c index 27ceefc..c90733c 100644 --- a/libust/channels.c +++ b/libust/channels.c @@ -247,11 +247,11 @@ int ltt_channels_get_index_from_name(const char *name) * Called with trace lock held. Does not perform the trace buffer allocation, * because we must let the user overwrite specific channel sizes. */ -struct ltt_channel_struct *ltt_channels_trace_alloc(unsigned int *nr_channels, +struct ust_channel *ltt_channels_trace_alloc(unsigned int *nr_channels, int overwrite, int active) { - struct ltt_channel_struct *channel = NULL; + struct ust_channel *channel = NULL; struct ltt_channel_setting *iter; mutex_lock(<t_channel_mutex); @@ -264,7 +264,7 @@ struct ltt_channel_struct *ltt_channels_trace_alloc(unsigned int *nr_channels, else kref_get(&index_kref); *nr_channels = free_index; - channel = kzalloc(sizeof(struct ltt_channel_struct) * free_index, + channel = kzalloc(sizeof(struct ust_channel) * free_index, GFP_KERNEL); if (!channel) { WARN("ltt_channel_struct: channel null after alloc"); @@ -292,7 +292,7 @@ end: * Called with trace lock held. The actual channel buffers must be freed before * this function is called. */ -void ltt_channels_trace_free(struct ltt_channel_struct *channels) +void ltt_channels_trace_free(struct ust_channel *channels) { lock_markers(); mutex_lock(<t_channel_mutex); diff --git a/libust/channels.h b/libust/channels.h index e460e12..0b179e5 100644 --- a/libust/channels.h +++ b/libust/channels.h @@ -22,8 +22,6 @@ */ #include -//ust// #include -//ust// #include #include #include @@ -32,13 +30,13 @@ #define EVENTS_PER_CHANNEL 65536 struct ltt_trace_struct; -struct rchan_buf; -struct ltt_channel_struct { +struct ust_buffer; + +struct ust_channel { /* First 32 bytes cache-hot cacheline */ struct ltt_trace_struct *trace; void *buf; - void *trans_channel_data; int overwrite:1; int active:1; unsigned int n_subbufs_order; @@ -54,20 +52,25 @@ struct ltt_channel_struct { * buffer_begin - called on buffer-switch to a new sub-buffer * @buf: the channel buffer containing the new sub-buffer */ - void (*buffer_begin) (struct rchan_buf *buf, + void (*buffer_begin) (struct ust_buffer *buf, u64 tsc, unsigned int subbuf_idx); /* * buffer_end - called on buffer-switch to a new sub-buffer * @buf: the channel buffer containing the previous sub-buffer */ - void (*buffer_end) (struct rchan_buf *buf, + void (*buffer_end) (struct ust_buffer *buf, u64 tsc, unsigned int offset, unsigned int subbuf_idx); struct kref kref; /* Channel transport reference count */ - unsigned int subbuf_size; + size_t subbuf_size; + int subbuf_size_order; unsigned int subbuf_cnt; const char *channel_name; int buf_shmid; + + u32 version; + size_t alloc_size; + struct list_head list; } ____cacheline_aligned; struct ltt_channel_setting { @@ -87,10 +90,10 @@ extern int ltt_channels_set_default(const char *name, unsigned int subbuf_cnt); extern const char *ltt_channels_get_name_from_index(unsigned int index); extern int ltt_channels_get_index_from_name(const char *name); -extern struct ltt_channel_struct *ltt_channels_trace_alloc(unsigned int *nr_channels, +extern struct ust_channel *ltt_channels_trace_alloc(unsigned int *nr_channels, int overwrite, int active); -extern void ltt_channels_trace_free(struct ltt_channel_struct *channels); +extern void ltt_channels_trace_free(struct ust_channel *channels); extern int _ltt_channels_get_event_id(const char *channel, const char *name); extern int ltt_channels_get_event_id(const char *channel, const char *name); diff --git a/libust/relay.c b/libust/relay.c deleted file mode 100644 index 408ce90..0000000 --- a/libust/relay.c +++ /dev/null @@ -1,2516 +0,0 @@ -/* - * Public API and common code for kernel->userspace relay file support. - * - * Copyright (C) 2002-2005 - Tom Zanussi (zanussi@us.ibm.com), IBM Corp - * Copyright (C) 1999-2005 - Karim Yaghmour (karim@opersys.com) - * Copyright (C) 2008 - Mathieu Desnoyers (mathieu.desnoyers@polymtl.ca) - * - * Moved to kernel/relay.c by Paul Mundt, 2006. - * November 2006 - CPU hotplug support by Mathieu Desnoyers - * (mathieu.desnoyers@polymtl.ca) - * - * This file is released under the GPL. - */ -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -#include -#include -#include -#include -#include -//#include "list.h" -#include "relay.h" -#include "channels.h" -#include -#include "tracer.h" -#include "tracercore.h" -#include "usterr.h" - -/* list of open channels, for cpu hotplug */ -static DEFINE_MUTEX(relay_channels_mutex); -static LIST_HEAD(relay_channels); - - -static struct dentry *ltt_create_buf_file_callback(struct rchan_buf *buf); - -/** - * relay_alloc_buf - allocate a channel buffer - * @buf: the buffer struct - * @size: total size of the buffer - */ -//ust// static int relay_alloc_buf(struct rchan_buf *buf, size_t *size) -//ust//{ -//ust// unsigned int i, n_pages; -//ust// struct buf_page *buf_page, *n; -//ust// -//ust// *size = PAGE_ALIGN(*size); -//ust// n_pages = *size >> PAGE_SHIFT; -//ust// -//ust// INIT_LIST_HEAD(&buf->pages); -//ust// -//ust// for (i = 0; i < n_pages; i++) { -//ust// buf_page = kmalloc_node(sizeof(*buf_page), GFP_KERNEL, -//ust// cpu_to_node(buf->cpu)); -//ust// if (unlikely(!buf_page)) -//ust// goto depopulate; -//ust// buf_page->page = alloc_pages_node(cpu_to_node(buf->cpu), -//ust// GFP_KERNEL | __GFP_ZERO, 0); -//ust// if (unlikely(!buf_page->page)) { -//ust// kfree(buf_page); -//ust// goto depopulate; -//ust// } -//ust// list_add_tail(&buf_page->list, &buf->pages); -//ust// buf_page->offset = (size_t)i << PAGE_SHIFT; -//ust// buf_page->buf = buf; -//ust// set_page_private(buf_page->page, (unsigned long)buf_page); -//ust// if (i == 0) { -//ust// buf->wpage = buf_page; -//ust// buf->hpage[0] = buf_page; -//ust// buf->hpage[1] = buf_page; -//ust// buf->rpage = buf_page; -//ust// } -//ust// } -//ust// buf->page_count = n_pages; -//ust// return 0; -//ust// -//ust//depopulate: -//ust// list_for_each_entry_safe(buf_page, n, &buf->pages, list) { -//ust// list_del_init(&buf_page->list); -//ust// __free_page(buf_page->page); -//ust// kfree(buf_page); -//ust// } -//ust// return -ENOMEM; -//ust//} - -static int relay_alloc_buf(struct rchan_buf *buf, size_t *size) -{ -//ust// unsigned int n_pages; -//ust// struct buf_page *buf_page, *n; - - void *ptr; - int result; - - *size = PAGE_ALIGN(*size); - - result = buf->shmid = shmget(getpid(), *size, IPC_CREAT | IPC_EXCL | 0700); - if(result == -1 && errno == EINVAL) { - ERR("shmget() returned EINVAL; maybe /proc/sys/kernel/shmmax should be increased."); - return -1; - } - else if(result == -1) { - PERROR("shmget"); - return -1; - } - - ptr = shmat(buf->shmid, NULL, 0); - if(ptr == (void *) -1) { - perror("shmat"); - goto destroy_shmem; - } - - /* Already mark the shared memory for destruction. This will occur only - * when all users have detached. - */ - result = shmctl(buf->shmid, IPC_RMID, NULL); - if(result == -1) { - perror("shmctl"); - return -1; - } - - buf->buf_data = ptr; - buf->buf_size = *size; - - return 0; - - destroy_shmem: - result = shmctl(buf->shmid, IPC_RMID, NULL); - if(result == -1) { - perror("shmctl"); - } - - return -1; -} - -/** - * relay_create_buf - allocate and initialize a channel buffer - * @chan: the relay channel - * @cpu: cpu the buffer belongs to - * - * Returns channel buffer if successful, %NULL otherwise. - */ -static struct rchan_buf *relay_create_buf(struct rchan *chan) -{ - int ret; - struct rchan_buf *buf = kzalloc(sizeof(struct rchan_buf), GFP_KERNEL); - if (!buf) - return NULL; - -// buf->cpu = cpu; - ret = relay_alloc_buf(buf, &chan->alloc_size); - if (ret) - goto free_buf; - - buf->chan = chan; - kref_get(&buf->chan->kref); - return buf; - -free_buf: - kfree(buf); - return NULL; -} - -/** - * relay_destroy_channel - free the channel struct - * @kref: target kernel reference that contains the relay channel - * - * Should only be called from kref_put(). - */ -static void relay_destroy_channel(struct kref *kref) -{ - struct rchan *chan = container_of(kref, struct rchan, kref); - kfree(chan); -} - -/** - * relay_destroy_buf - destroy an rchan_buf struct and associated buffer - * @buf: the buffer struct - */ -static void relay_destroy_buf(struct rchan_buf *buf) -{ - struct rchan *chan = buf->chan; -//ust// struct buf_page *buf_page; - int result; - - result = munmap(buf->buf_data, buf->buf_size); - if(result == -1) { - PERROR("munmap"); - } - -//ust// chan->buf[buf->cpu] = NULL; - kfree(buf); - kref_put(&chan->kref, relay_destroy_channel); -} - -/** - * relay_remove_buf - remove a channel buffer - * @kref: target kernel reference that contains the relay buffer - * - * Removes the file from the fileystem, which also frees the - * rchan_buf_struct and the channel buffer. Should only be called from - * kref_put(). - */ -static void relay_remove_buf(struct kref *kref) -{ - struct rchan_buf *buf = container_of(kref, struct rchan_buf, kref); -//ust// buf->chan->cb->remove_buf_file(buf); - relay_destroy_buf(buf); -} - -/* - * High-level relay kernel API and associated functions. - */ - -/* - * rchan_callback implementations defining default channel behavior. Used - * in place of corresponding NULL values in client callback struct. - */ - -/* - * create_buf_file_create() default callback. Does nothing. - */ -//ust// static struct dentry *create_buf_file_default_callback(const char *filename, -//ust// struct dentry *parent, -//ust// int mode, -//ust// struct rchan_buf *buf) -//ust// { -//ust// return NULL; -//ust// } - -//ust// /* -//ust// * remove_buf_file() default callback. Does nothing. -//ust// */ -//ust// static int remove_buf_file_default_callback(struct dentry *dentry) -//ust// { -//ust// return -EINVAL; -//ust// } - -/** - * wakeup_readers - wake up readers waiting on a channel - * @data: contains the channel buffer - * - * This is the timer function used to defer reader waking. - */ -//ust// static void wakeup_readers(unsigned long data) -//ust// { -//ust// struct rchan_buf *buf = (struct rchan_buf *)data; -//ust// wake_up_interruptible(&buf->read_wait); -//ust// } - -/** - * __relay_reset - reset a channel buffer - * @buf: the channel buffer - * @init: 1 if this is a first-time initialization - * - * See relay_reset() for description of effect. - */ -static void __relay_reset(struct rchan_buf *buf, unsigned int init) -{ - if (init) { -//ust// init_waitqueue_head(&buf->read_wait); - kref_init(&buf->kref); -//ust// setup_timer(&buf->timer, wakeup_readers, (unsigned long)buf); - } //ust// else -//ust// del_timer_sync(&buf->timer); - - buf->finalized = 0; -} - -/* - * relay_open_buf - create a new relay channel buffer - * - * used by relay_open() and CPU hotplug. - */ -static struct rchan_buf *relay_open_buf(struct rchan *chan) -{ - struct rchan_buf *buf = NULL; -//ust// struct dentry *dentry; -//ust// char *tmpname; - -//ust// tmpname = kzalloc(NAME_MAX + 1, GFP_KERNEL); -//ust// if (!tmpname) -//ust// goto end; -//ust// snprintf(tmpname, NAME_MAX, "%s%d", chan->base_filename, cpu); - - buf = relay_create_buf(chan); - if (!buf) - goto free_name; - - __relay_reset(buf, 1); - - /* Create file in fs */ -//ust// dentry = chan->cb->create_buf_file(tmpname, chan->parent, S_IRUSR, -//ust// buf); - - ltt_create_buf_file_callback(buf); // ust // - -//ust// if (!dentry) -//ust// goto free_buf; -//ust// -//ust// buf->dentry = dentry; - - goto free_name; - -//ust//free_buf: - relay_destroy_buf(buf); - buf = NULL; -free_name: -//ust// kfree(tmpname); -//ust//end: - return buf; -} - -/** - * relay_close_buf - close a channel buffer - * @buf: channel buffer - * - * Marks the buffer finalized and restores the default callbacks. - * The channel buffer and channel buffer data structure are then freed - * automatically when the last reference is given up. - */ -static void relay_close_buf(struct rchan_buf *buf) -{ -//ust// del_timer_sync(&buf->timer); - kref_put(&buf->kref, relay_remove_buf); -} - -//ust// static void setup_callbacks(struct rchan *chan, -//ust// struct rchan_callbacks *cb) -//ust// { -//ust// if (!cb) { -//ust// chan->cb = &default_channel_callbacks; -//ust// return; -//ust// } -//ust// -//ust// if (!cb->create_buf_file) -//ust// cb->create_buf_file = create_buf_file_default_callback; -//ust// if (!cb->remove_buf_file) -//ust// cb->remove_buf_file = remove_buf_file_default_callback; -//ust// chan->cb = cb; -//ust// } - -/** - * relay_hotcpu_callback - CPU hotplug callback - * @nb: notifier block - * @action: hotplug action to take - * @hcpu: CPU number - * - * Returns the success/failure of the operation. (%NOTIFY_OK, %NOTIFY_BAD) - */ -//ust// static int __cpuinit relay_hotcpu_callback(struct notifier_block *nb, -//ust// unsigned long action, -//ust// void *hcpu) -//ust// { -//ust// unsigned int hotcpu = (unsigned long)hcpu; -//ust// struct rchan *chan; -//ust// -//ust// switch (action) { -//ust// case CPU_UP_PREPARE: -//ust// case CPU_UP_PREPARE_FROZEN: -//ust// mutex_lock(&relay_channels_mutex); -//ust// list_for_each_entry(chan, &relay_channels, list) { -//ust// if (chan->buf[hotcpu]) -//ust// continue; -//ust// chan->buf[hotcpu] = relay_open_buf(chan, hotcpu); -//ust// if (!chan->buf[hotcpu]) { -//ust// printk(KERN_ERR -//ust// "relay_hotcpu_callback: cpu %d buffer " -//ust// "creation failed\n", hotcpu); -//ust// mutex_unlock(&relay_channels_mutex); -//ust// return NOTIFY_BAD; -//ust// } -//ust// } -//ust// mutex_unlock(&relay_channels_mutex); -//ust// break; -//ust// case CPU_DEAD: -//ust// case CPU_DEAD_FROZEN: -//ust// /* No need to flush the cpu : will be flushed upon -//ust// * final relay_flush() call. */ -//ust// break; -//ust// } -//ust// return NOTIFY_OK; -//ust// } - -/** - * ltt_relay_open - create a new relay channel - * @base_filename: base name of files to create - * @parent: dentry of parent directory, %NULL for root directory - * @subbuf_size: size of sub-buffers - * @n_subbufs: number of sub-buffers - * @cb: client callback functions - * @private_data: user-defined data - * - * Returns channel pointer if successful, %NULL otherwise. - * - * Creates a channel buffer for each cpu using the sizes and - * attributes specified. The created channel buffer files - * will be named base_filename0...base_filenameN-1. File - * permissions will be %S_IRUSR. - */ -struct rchan *ltt_relay_open(const char *base_filename, - struct dentry *parent, - size_t subbuf_size, - size_t n_subbufs, - void *private_data) -{ -//ust// unsigned int i; - struct rchan *chan; -//ust// if (!base_filename) -//ust// return NULL; - - if (!(subbuf_size && n_subbufs)) - return NULL; - - chan = kzalloc(sizeof(struct rchan), GFP_KERNEL); - if (!chan) - return NULL; - - chan->version = LTT_RELAY_CHANNEL_VERSION; - chan->n_subbufs = n_subbufs; - chan->subbuf_size = subbuf_size; - chan->subbuf_size_order = get_count_order(subbuf_size); - chan->alloc_size = FIX_SIZE(subbuf_size * n_subbufs); - chan->parent = parent; - chan->private_data = private_data; -//ust// strlcpy(chan->base_filename, base_filename, NAME_MAX); -//ust// setup_callbacks(chan, cb); - kref_init(&chan->kref); - - mutex_lock(&relay_channels_mutex); -//ust// for_each_online_cpu(i) { - chan->buf = relay_open_buf(chan); - if (!chan->buf) - goto error; -//ust// } - list_add(&chan->list, &relay_channels); - mutex_unlock(&relay_channels_mutex); - - return chan; - -//ust//free_bufs: -//ust// for_each_possible_cpu(i) { -//ust// if (!chan->buf[i]) -//ust// break; -//ust// relay_close_buf(chan->buf[i]); -//ust// } - - error: - kref_put(&chan->kref, relay_destroy_channel); - mutex_unlock(&relay_channels_mutex); - return NULL; -} -//ust// EXPORT_SYMBOL_GPL(ltt_relay_open); - -/** - * ltt_relay_close - close the channel - * @chan: the channel - * - * Closes all channel buffers and frees the channel. - */ -void ltt_relay_close(struct rchan *chan) -{ -//ust// unsigned int i; - - if (!chan) - return; - - mutex_lock(&relay_channels_mutex); -//ust// for_each_possible_cpu(i) - if (chan->buf) - relay_close_buf(chan->buf); - - list_del(&chan->list); - kref_put(&chan->kref, relay_destroy_channel); - mutex_unlock(&relay_channels_mutex); -} -//ust// EXPORT_SYMBOL_GPL(ltt_relay_close); - -/* - * Start iteration at the previous element. Skip the real list head. - */ -//ust// struct buf_page *ltt_relay_find_prev_page(struct rchan_buf *buf, -//ust// struct buf_page *page, size_t offset, ssize_t diff_offset) -//ust// { -//ust// struct buf_page *iter; -//ust// size_t orig_iter_off; -//ust// unsigned int i = 0; -//ust// -//ust// orig_iter_off = page->offset; -//ust// list_for_each_entry_reverse(iter, &page->list, list) { -//ust// /* -//ust// * Skip the real list head. -//ust// */ -//ust// if (&iter->list == &buf->pages) -//ust// continue; -//ust// i++; -//ust// if (offset >= iter->offset -//ust// && offset < iter->offset + PAGE_SIZE) { -//ust// #ifdef CONFIG_LTT_RELAY_CHECK_RANDOM_ACCESS -//ust// if (i > 1) { -//ust// printk(KERN_WARNING -//ust// "Backward random access detected in " -//ust// "ltt_relay. Iterations %u, " -//ust// "offset %zu, orig iter->off %zu, " -//ust// "iter->off %zu diff_offset %zd.\n", i, -//ust// offset, orig_iter_off, iter->offset, -//ust// diff_offset); -//ust// WARN_ON(1); -//ust// } -//ust// #endif -//ust// return iter; -//ust// } -//ust// } -//ust// WARN_ON(1); -//ust// return NULL; -//ust// } -//ust// EXPORT_SYMBOL_GPL(ltt_relay_find_prev_page); - -/* - * Start iteration at the next element. Skip the real list head. - */ -//ust// struct buf_page *ltt_relay_find_next_page(struct rchan_buf *buf, -//ust// struct buf_page *page, size_t offset, ssize_t diff_offset) -//ust// { -//ust// struct buf_page *iter; -//ust// unsigned int i = 0; -//ust// size_t orig_iter_off; -//ust// -//ust// orig_iter_off = page->offset; -//ust// list_for_each_entry(iter, &page->list, list) { -//ust// /* -//ust// * Skip the real list head. -//ust// */ -//ust// if (&iter->list == &buf->pages) -//ust// continue; -//ust// i++; -//ust// if (offset >= iter->offset -//ust// && offset < iter->offset + PAGE_SIZE) { -//ust// #ifdef CONFIG_LTT_RELAY_CHECK_RANDOM_ACCESS -//ust// if (i > 1) { -//ust// printk(KERN_WARNING -//ust// "Forward random access detected in " -//ust// "ltt_relay. Iterations %u, " -//ust// "offset %zu, orig iter->off %zu, " -//ust// "iter->off %zu diff_offset %zd.\n", i, -//ust// offset, orig_iter_off, iter->offset, -//ust// diff_offset); -//ust// WARN_ON(1); -//ust// } -//ust// #endif -//ust// return iter; -//ust// } -//ust// } -//ust// WARN_ON(1); -//ust// return NULL; -//ust// } -//ust// EXPORT_SYMBOL_GPL(ltt_relay_find_next_page); - -/** - * ltt_relay_write - write data to a ltt_relay buffer. - * @buf : buffer - * @offset : offset within the buffer - * @src : source address - * @len : length to write - * @page : cached buffer page - * @pagecpy : page size copied so far - */ -void _ltt_relay_write(struct rchan_buf *buf, size_t offset, - const void *src, size_t len, ssize_t cpy) -{ - do { - len -= cpy; - src += cpy; - offset += cpy; - /* - * Underlying layer should never ask for writes across - * subbuffers. - */ - WARN_ON(offset >= buf->buf_size); - - cpy = min_t(size_t, len, buf->buf_size - offset); - ltt_relay_do_copy(buf->buf_data + offset, src, cpy); - } while (unlikely(len != cpy)); -} -//ust// EXPORT_SYMBOL_GPL(_ltt_relay_write); - -/** - * ltt_relay_read - read data from ltt_relay_buffer. - * @buf : buffer - * @offset : offset within the buffer - * @dest : destination address - * @len : length to write - */ -//ust// int ltt_relay_read(struct rchan_buf *buf, size_t offset, -//ust// void *dest, size_t len) -//ust// { -//ust// struct buf_page *page; -//ust// ssize_t pagecpy, orig_len; -//ust// -//ust// orig_len = len; -//ust// offset &= buf->chan->alloc_size - 1; -//ust// page = buf->rpage; -//ust// if (unlikely(!len)) -//ust// return 0; -//ust// for (;;) { -//ust// page = ltt_relay_cache_page(buf, &buf->rpage, page, offset); -//ust// pagecpy = min_t(size_t, len, PAGE_SIZE - (offset & ~PAGE_MASK)); -//ust// memcpy(dest, page_address(page->page) + (offset & ~PAGE_MASK), -//ust// pagecpy); -//ust// len -= pagecpy; -//ust// if (likely(!len)) -//ust// break; -//ust// dest += pagecpy; -//ust// offset += pagecpy; -//ust// /* -//ust// * Underlying layer should never ask for reads across -//ust// * subbuffers. -//ust// */ -//ust// WARN_ON(offset >= buf->chan->alloc_size); -//ust// } -//ust// return orig_len; -//ust// } -//ust// EXPORT_SYMBOL_GPL(ltt_relay_read); - -/** - * ltt_relay_read_get_page - Get a whole page to read from - * @buf : buffer - * @offset : offset within the buffer - */ -//ust// struct buf_page *ltt_relay_read_get_page(struct rchan_buf *buf, size_t offset) -//ust// { -//ust// struct buf_page *page; - -//ust// offset &= buf->chan->alloc_size - 1; -//ust// page = buf->rpage; -//ust// page = ltt_relay_cache_page(buf, &buf->rpage, page, offset); -//ust// return page; -//ust// } -//ust// EXPORT_SYMBOL_GPL(ltt_relay_read_get_page); - -/** - * ltt_relay_offset_address - get address of a location within the buffer - * @buf : buffer - * @offset : offset within the buffer. - * - * Return the address where a given offset is located. - * Should be used to get the current subbuffer header pointer. Given we know - * it's never on a page boundary, it's safe to write directly to this address, - * as long as the write is never bigger than a page size. - */ -void *ltt_relay_offset_address(struct rchan_buf *buf, size_t offset) -{ -//ust// struct buf_page *page; -//ust// unsigned int odd; -//ust// -//ust// offset &= buf->chan->alloc_size - 1; -//ust// odd = !!(offset & buf->chan->subbuf_size); -//ust// page = buf->hpage[odd]; -//ust// if (offset < page->offset || offset >= page->offset + PAGE_SIZE) -//ust// buf->hpage[odd] = page = buf->wpage; -//ust// page = ltt_relay_cache_page(buf, &buf->hpage[odd], page, offset); -//ust// return page_address(page->page) + (offset & ~PAGE_MASK); - return ((char *)buf->buf_data)+offset; - return NULL; -} -//ust// EXPORT_SYMBOL_GPL(ltt_relay_offset_address); - -/** - * relay_file_open - open file op for relay files - * @inode: the inode - * @filp: the file - * - * Increments the channel buffer refcount. - */ -//ust// static int relay_file_open(struct inode *inode, struct file *filp) -//ust// { -//ust// struct rchan_buf *buf = inode->i_private; -//ust// kref_get(&buf->kref); -//ust// filp->private_data = buf; -//ust// -//ust// return nonseekable_open(inode, filp); -//ust// } - -/** - * relay_file_release - release file op for relay files - * @inode: the inode - * @filp: the file - * - * Decrements the channel refcount, as the filesystem is - * no longer using it. - */ -//ust// static int relay_file_release(struct inode *inode, struct file *filp) -//ust// { -//ust// struct rchan_buf *buf = filp->private_data; -//ust// kref_put(&buf->kref, relay_remove_buf); -//ust// -//ust// return 0; -//ust// } - -//ust// const struct file_operations ltt_relay_file_operations = { -//ust// .open = relay_file_open, -//ust// .release = relay_file_release, -//ust// }; -//ust// EXPORT_SYMBOL_GPL(ltt_relay_file_operations); - -//ust// static __init int relay_init(void) -//ust// { -//ust// hotcpu_notifier(relay_hotcpu_callback, 5); -//ust// return 0; -//ust// } - -//ust// module_init(relay_init); -/* - * ltt/ltt-relay.c - * - * (C) Copyright 2005-2008 - Mathieu Desnoyers (mathieu.desnoyers@polymtl.ca) - * - * LTTng lockless buffer space management (reader/writer). - * - * Author: - * Mathieu Desnoyers (mathieu.desnoyers@polymtl.ca) - * - * Inspired from LTT : - * Karim Yaghmour (karim@opersys.com) - * Tom Zanussi (zanussi@us.ibm.com) - * Bob Wisniewski (bob@watson.ibm.com) - * And from K42 : - * Bob Wisniewski (bob@watson.ibm.com) - * - * Changelog: - * 08/10/08, Cleanup. - * 19/10/05, Complete lockless mechanism. - * 27/05/05, Modular redesign and rewrite. - * - * Userspace reader semantic : - * while (poll fd != POLLHUP) { - * - ioctl RELAY_GET_SUBBUF_SIZE - * while (1) { - * - ioctl GET_SUBBUF - * - splice 1 subbuffer worth of data to a pipe - * - splice the data from pipe to disk/network - * - ioctl PUT_SUBBUF, check error value - * if err val < 0, previous subbuffer was corrupted. - * } - * } - */ - -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include - -#if 0 -#define printk_dbg(fmt, args...) printk(fmt, args) -#else -#define printk_dbg(fmt, args...) -#endif - -/* - * Last TSC comparison functions. Check if the current TSC overflows - * LTT_TSC_BITS bits from the last TSC read. Reads and writes last_tsc - * atomically. - */ - -#if (BITS_PER_LONG == 32) -static inline void save_last_tsc(struct ltt_channel_buf_struct *ltt_buf, - u64 tsc) -{ - ltt_buf->last_tsc = (unsigned long)(tsc >> LTT_TSC_BITS); -} - -static inline int last_tsc_overflow(struct ltt_channel_buf_struct *ltt_buf, - u64 tsc) -{ - unsigned long tsc_shifted = (unsigned long)(tsc >> LTT_TSC_BITS); - - if (unlikely((tsc_shifted - ltt_buf->last_tsc))) - return 1; - else - return 0; -} -#else -static inline void save_last_tsc(struct ltt_channel_buf_struct *ltt_buf, - u64 tsc) -{ - ltt_buf->last_tsc = (unsigned long)tsc; -} - -static inline int last_tsc_overflow(struct ltt_channel_buf_struct *ltt_buf, - u64 tsc) -{ - if (unlikely((tsc - ltt_buf->last_tsc) >> LTT_TSC_BITS)) - return 1; - else - return 0; -} -#endif - -//ust// static struct file_operations ltt_file_operations; - -/* - * A switch is done during tracing or as a final flush after tracing (so it - * won't write in the new sub-buffer). - */ -enum force_switch_mode { FORCE_ACTIVE, FORCE_FLUSH }; - -static int ltt_relay_create_buffer(struct ltt_trace_struct *trace, - struct ltt_channel_struct *ltt_chan, - struct rchan_buf *buf, - unsigned int n_subbufs); - -static void ltt_relay_destroy_buffer(struct ltt_channel_struct *ltt_chan); - -static void ltt_force_switch(struct rchan_buf *buf, - enum force_switch_mode mode); - -/* - * Trace callbacks - */ -static void ltt_buffer_begin_callback(struct rchan_buf *buf, - u64 tsc, unsigned int subbuf_idx) -{ - struct ltt_channel_struct *channel = - (struct ltt_channel_struct *)buf->chan->private_data; - struct ltt_subbuffer_header *header = - (struct ltt_subbuffer_header *) - ltt_relay_offset_address(buf, - subbuf_idx * buf->chan->subbuf_size); - - header->cycle_count_begin = tsc; - header->lost_size = 0xFFFFFFFF; /* for debugging */ - header->buf_size = buf->chan->subbuf_size; - ltt_write_trace_header(channel->trace, header); -} - -/* - * offset is assumed to never be 0 here : never deliver a completely empty - * subbuffer. The lost size is between 0 and subbuf_size-1. - */ -static notrace void ltt_buffer_end_callback(struct rchan_buf *buf, - u64 tsc, unsigned int offset, unsigned int subbuf_idx) -{ - struct ltt_channel_struct *channel = - (struct ltt_channel_struct *)buf->chan->private_data; - struct ltt_channel_buf_struct *ltt_buf = channel->buf; - struct ltt_subbuffer_header *header = - (struct ltt_subbuffer_header *) - ltt_relay_offset_address(buf, - subbuf_idx * buf->chan->subbuf_size); - - header->lost_size = SUBBUF_OFFSET((buf->chan->subbuf_size - offset), - buf->chan); - header->cycle_count_end = tsc; - header->events_lost = local_read(<t_buf->events_lost); - header->subbuf_corrupt = local_read(<t_buf->corrupted_subbuffers); - -} - -void (*wake_consumer)(void *, int) = NULL; - -void relay_set_wake_consumer(void (*wake)(void *, int)) -{ - wake_consumer = wake; -} - -void relay_wake_consumer(void *arg, int finished) -{ - if(wake_consumer) - wake_consumer(arg, finished); -} - -static notrace void ltt_deliver(struct rchan_buf *buf, unsigned int subbuf_idx, - long commit_count) -{ - struct ltt_channel_struct *channel = - (struct ltt_channel_struct *)buf->chan->private_data; - struct ltt_channel_buf_struct *ltt_buf = channel->buf; - int result; - -//ust// #ifdef CONFIG_LTT_VMCORE - local_set(<t_buf->commit_seq[subbuf_idx], commit_count); -//ust// #endif - - /* wakeup consumer */ - result = write(ltt_buf->data_ready_fd_write, "1", 1); - if(result == -1) { - PERROR("write (in ltt_relay_buffer_flush)"); - ERR("this should never happen!"); - } -//ust// atomic_set(<t_buf->wakeup_readers, 1); -} - -static struct dentry *ltt_create_buf_file_callback(struct rchan_buf *buf) -{ - struct ltt_channel_struct *ltt_chan; - int err; -//ust// struct dentry *dentry; - - ltt_chan = buf->chan->private_data; - err = ltt_relay_create_buffer(ltt_chan->trace, ltt_chan, buf, buf->chan->n_subbufs); - if (err) - return ERR_PTR(err); - -//ust// dentry = debugfs_create_file(filename, mode, parent, buf, -//ust// <t_file_operations); -//ust// if (!dentry) -//ust// goto error; -//ust// return dentry; - return NULL; //ust// -//ust//error: - ltt_relay_destroy_buffer(ltt_chan); - return NULL; -} - -//ust// static int ltt_remove_buf_file_callback(struct rchan_buf *buf) -//ust// { -//ust// //ust// struct rchan_buf *buf = dentry->d_inode->i_private; -//ust// struct ltt_channel_struct *ltt_chan = buf->chan->private_data; -//ust// -//ust// //ust// debugfs_remove(dentry); -//ust// ltt_relay_destroy_buffer(ltt_chan); -//ust// -//ust// return 0; -//ust// } - -/* - * Wake writers : - * - * This must be done after the trace is removed from the RCU list so that there - * are no stalled writers. - */ -//ust// static void ltt_relay_wake_writers(struct ltt_channel_buf_struct *ltt_buf) -//ust// { -//ust// -//ust// if (waitqueue_active(<t_buf->write_wait)) -//ust// wake_up_interruptible(<t_buf->write_wait); -//ust// } - -/* - * This function should not be called from NMI interrupt context - */ -static notrace void ltt_buf_unfull(struct rchan_buf *buf, - unsigned int subbuf_idx, - long offset) -{ -//ust// struct ltt_channel_struct *ltt_channel = -//ust// (struct ltt_channel_struct *)buf->chan->private_data; -//ust// struct ltt_channel_buf_struct *ltt_buf = ltt_channel->buf; -//ust// -//ust// ltt_relay_wake_writers(ltt_buf); -} - -/** - * ltt_open - open file op for ltt files - * @inode: opened inode - * @file: opened file - * - * Open implementation. Makes sure only one open instance of a buffer is - * done at a given moment. - */ -//ust// static int ltt_open(struct inode *inode, struct file *file) -//ust// { -//ust// struct rchan_buf *buf = inode->i_private; -//ust// struct ltt_channel_struct *ltt_channel = -//ust// (struct ltt_channel_struct *)buf->chan->private_data; -//ust// struct ltt_channel_buf_struct *ltt_buf = -//ust// percpu_ptr(ltt_channel->buf, buf->cpu); -//ust// -//ust// if (!atomic_long_add_unless(<t_buf->active_readers, 1, 1)) -//ust// return -EBUSY; -//ust// return ltt_relay_file_operations.open(inode, file); -//ust// } - -/** - * ltt_release - release file op for ltt files - * @inode: opened inode - * @file: opened file - * - * Release implementation. - */ -//ust// static int ltt_release(struct inode *inode, struct file *file) -//ust// { -//ust// struct rchan_buf *buf = inode->i_private; -//ust// struct ltt_channel_struct *ltt_channel = -//ust// (struct ltt_channel_struct *)buf->chan->private_data; -//ust// struct ltt_channel_buf_struct *ltt_buf = -//ust// percpu_ptr(ltt_channel->buf, buf->cpu); -//ust// int ret; -//ust// -//ust// WARN_ON(atomic_long_read(<t_buf->active_readers) != 1); -//ust// atomic_long_dec(<t_buf->active_readers); -//ust// ret = ltt_relay_file_operations.release(inode, file); -//ust// WARN_ON(ret); -//ust// return ret; -//ust// } - -/** - * ltt_poll - file op for ltt files - * @filp: the file - * @wait: poll table - * - * Poll implementation. - */ -//ust// static unsigned int ltt_poll(struct file *filp, poll_table *wait) -//ust// { -//ust// unsigned int mask = 0; -//ust// struct inode *inode = filp->f_dentry->d_inode; -//ust// struct rchan_buf *buf = inode->i_private; -//ust// struct ltt_channel_struct *ltt_channel = -//ust// (struct ltt_channel_struct *)buf->chan->private_data; -//ust// struct ltt_channel_buf_struct *ltt_buf = -//ust// percpu_ptr(ltt_channel->buf, buf->cpu); -//ust// -//ust// if (filp->f_mode & FMODE_READ) { -//ust// poll_wait_set_exclusive(wait); -//ust// poll_wait(filp, &buf->read_wait, wait); -//ust// -//ust// WARN_ON(atomic_long_read(<t_buf->active_readers) != 1); -//ust// if (SUBBUF_TRUNC(local_read(<t_buf->offset), -//ust// buf->chan) -//ust// - SUBBUF_TRUNC(atomic_long_read(<t_buf->consumed), -//ust// buf->chan) -//ust// == 0) { -//ust// if (buf->finalized) -//ust// return POLLHUP; -//ust// else -//ust// return 0; -//ust// } else { -//ust// struct rchan *rchan = -//ust// ltt_channel->trans_channel_data; -//ust// if (SUBBUF_TRUNC(local_read(<t_buf->offset), -//ust// buf->chan) -//ust// - SUBBUF_TRUNC(atomic_long_read( -//ust// <t_buf->consumed), -//ust// buf->chan) -//ust// >= rchan->alloc_size) -//ust// return POLLPRI | POLLRDBAND; -//ust// else -//ust// return POLLIN | POLLRDNORM; -//ust// } -//ust// } -//ust// return mask; -//ust// } - -int ltt_do_get_subbuf(struct rchan_buf *buf, struct ltt_channel_buf_struct *ltt_buf, long *pconsumed_old) -{ - struct ltt_channel_struct *ltt_channel = (struct ltt_channel_struct *)buf->chan->private_data; - long consumed_old, consumed_idx, commit_count, write_offset; - consumed_old = atomic_long_read(<t_buf->consumed); - consumed_idx = SUBBUF_INDEX(consumed_old, buf->chan); - commit_count = local_read(<t_buf->commit_count[consumed_idx]); - /* - * Make sure we read the commit count before reading the buffer - * data and the write offset. Correct consumed offset ordering - * wrt commit count is insured by the use of cmpxchg to update - * the consumed offset. - */ - smp_rmb(); - write_offset = local_read(<t_buf->offset); - /* - * Check that the subbuffer we are trying to consume has been - * already fully committed. - */ - if (((commit_count - buf->chan->subbuf_size) - & ltt_channel->commit_count_mask) - - (BUFFER_TRUNC(consumed_old, buf->chan) - >> ltt_channel->n_subbufs_order) - != 0) { - return -EAGAIN; - } - /* - * Check that we are not about to read the same subbuffer in - * which the writer head is. - */ - if ((SUBBUF_TRUNC(write_offset, buf->chan) - - SUBBUF_TRUNC(consumed_old, buf->chan)) - == 0) { - return -EAGAIN; - } - - *pconsumed_old = consumed_old; - return 0; -} - -int ltt_do_put_subbuf(struct rchan_buf *buf, struct ltt_channel_buf_struct *ltt_buf, u32 uconsumed_old) -{ - long consumed_new, consumed_old; - - consumed_old = atomic_long_read(<t_buf->consumed); - consumed_old = consumed_old & (~0xFFFFFFFFL); - consumed_old = consumed_old | uconsumed_old; - consumed_new = SUBBUF_ALIGN(consumed_old, buf->chan); - -//ust// spin_lock(<t_buf->full_lock); - if (atomic_long_cmpxchg(<t_buf->consumed, consumed_old, - consumed_new) - != consumed_old) { - /* We have been pushed by the writer : the last - * buffer read _is_ corrupted! It can also - * happen if this is a buffer we never got. */ -//ust// spin_unlock(<t_buf->full_lock); - return -EIO; - } else { - /* tell the client that buffer is now unfull */ - int index; - long data; - index = SUBBUF_INDEX(consumed_old, buf->chan); - data = BUFFER_OFFSET(consumed_old, buf->chan); - ltt_buf_unfull(buf, index, data); -//ust// spin_unlock(<t_buf->full_lock); - } - return 0; -} - -/** - * ltt_ioctl - control on the debugfs file - * - * @inode: the inode - * @filp: the file - * @cmd: the command - * @arg: command arg - * - * This ioctl implements three commands necessary for a minimal - * producer/consumer implementation : - * RELAY_GET_SUBBUF - * Get the next sub buffer that can be read. It never blocks. - * RELAY_PUT_SUBBUF - * Release the currently read sub-buffer. Parameter is the last - * put subbuffer (returned by GET_SUBBUF). - * RELAY_GET_N_BUBBUFS - * returns the number of sub buffers in the per cpu channel. - * RELAY_GET_SUBBUF_SIZE - * returns the size of the sub buffers. - */ -//ust// static int ltt_ioctl(struct inode *inode, struct file *filp, -//ust// unsigned int cmd, unsigned long arg) -//ust// { -//ust// struct rchan_buf *buf = inode->i_private; -//ust// struct ltt_channel_struct *ltt_channel = -//ust// (struct ltt_channel_struct *)buf->chan->private_data; -//ust// struct ltt_channel_buf_struct *ltt_buf = -//ust// percpu_ptr(ltt_channel->buf, buf->cpu); -//ust// u32 __user *argp = (u32 __user *)arg; -//ust// -//ust// WARN_ON(atomic_long_read(<t_buf->active_readers) != 1); -//ust// switch (cmd) { -//ust// case RELAY_GET_SUBBUF: -//ust// { -//ust// int ret; -//ust// ret = ltt_do_get_subbuf(buf, ltt_buf, &consumed_old); -//ust// if(ret < 0) -//ust// return ret; -//ust// return put_user((u32)consumed_old, argp); -//ust// } -//ust// case RELAY_PUT_SUBBUF: -//ust// { -//ust// int ret; -//ust// u32 uconsumed_old; -//ust// ret = get_user(uconsumed_old, argp); -//ust// if (ret) -//ust// return ret; /* will return -EFAULT */ -//ust// return ltt_do_put_subbuf(buf, ltt_buf, uconsumed_old); -//ust// } -//ust// case RELAY_GET_N_SUBBUFS: -//ust// return put_user((u32)buf->chan->n_subbufs, argp); -//ust// break; -//ust// case RELAY_GET_SUBBUF_SIZE: -//ust// return put_user((u32)buf->chan->subbuf_size, argp); -//ust// break; -//ust// default: -//ust// return -ENOIOCTLCMD; -//ust// } -//ust// return 0; -//ust// } - -//ust// #ifdef CONFIG_COMPAT -//ust// static long ltt_compat_ioctl(struct file *file, unsigned int cmd, -//ust// unsigned long arg) -//ust// { -//ust// long ret = -ENOIOCTLCMD; -//ust// -//ust// lock_kernel(); -//ust// ret = ltt_ioctl(file->f_dentry->d_inode, file, cmd, arg); -//ust// unlock_kernel(); -//ust// -//ust// return ret; -//ust// } -//ust// #endif - -//ust// static void ltt_relay_pipe_buf_release(struct pipe_inode_info *pipe, -//ust// struct pipe_buffer *pbuf) -//ust// { -//ust// } -//ust// -//ust// static struct pipe_buf_operations ltt_relay_pipe_buf_ops = { -//ust// .can_merge = 0, -//ust// .map = generic_pipe_buf_map, -//ust// .unmap = generic_pipe_buf_unmap, -//ust// .confirm = generic_pipe_buf_confirm, -//ust// .release = ltt_relay_pipe_buf_release, -//ust// .steal = generic_pipe_buf_steal, -//ust// .get = generic_pipe_buf_get, -//ust// }; - -//ust// static void ltt_relay_page_release(struct splice_pipe_desc *spd, unsigned int i) -//ust// { -//ust// } - -/* - * subbuf_splice_actor - splice up to one subbuf's worth of data - */ -//ust// static int subbuf_splice_actor(struct file *in, -//ust// loff_t *ppos, -//ust// struct pipe_inode_info *pipe, -//ust// size_t len, -//ust// unsigned int flags) -//ust// { -//ust// struct rchan_buf *buf = in->private_data; -//ust// struct ltt_channel_struct *ltt_channel = -//ust// (struct ltt_channel_struct *)buf->chan->private_data; -//ust// struct ltt_channel_buf_struct *ltt_buf = -//ust// percpu_ptr(ltt_channel->buf, buf->cpu); -//ust// unsigned int poff, subbuf_pages, nr_pages; -//ust// struct page *pages[PIPE_BUFFERS]; -//ust// struct partial_page partial[PIPE_BUFFERS]; -//ust// struct splice_pipe_desc spd = { -//ust// .pages = pages, -//ust// .nr_pages = 0, -//ust// .partial = partial, -//ust// .flags = flags, -//ust// .ops = <t_relay_pipe_buf_ops, -//ust// .spd_release = ltt_relay_page_release, -//ust// }; -//ust// long consumed_old, consumed_idx, roffset; -//ust// unsigned long bytes_avail; -//ust// -//ust// /* -//ust// * Check that a GET_SUBBUF ioctl has been done before. -//ust// */ -//ust// WARN_ON(atomic_long_read(<t_buf->active_readers) != 1); -//ust// consumed_old = atomic_long_read(<t_buf->consumed); -//ust// consumed_old += *ppos; -//ust// consumed_idx = SUBBUF_INDEX(consumed_old, buf->chan); -//ust// -//ust// /* -//ust// * Adjust read len, if longer than what is available -//ust// */ -//ust// bytes_avail = SUBBUF_TRUNC(local_read(<t_buf->offset), buf->chan) -//ust// - consumed_old; -//ust// WARN_ON(bytes_avail > buf->chan->alloc_size); -//ust// len = min_t(size_t, len, bytes_avail); -//ust// subbuf_pages = bytes_avail >> PAGE_SHIFT; -//ust// nr_pages = min_t(unsigned int, subbuf_pages, PIPE_BUFFERS); -//ust// roffset = consumed_old & PAGE_MASK; -//ust// poff = consumed_old & ~PAGE_MASK; -//ust// printk_dbg(KERN_DEBUG "SPLICE actor len %zu pos %zd write_pos %ld\n", -//ust// len, (ssize_t)*ppos, local_read(<t_buf->offset)); -//ust// -//ust// for (; spd.nr_pages < nr_pages; spd.nr_pages++) { -//ust// unsigned int this_len; -//ust// struct buf_page *page; -//ust// -//ust// if (!len) -//ust// break; -//ust// printk_dbg(KERN_DEBUG "SPLICE actor loop len %zu roffset %ld\n", -//ust// len, roffset); -//ust// -//ust// this_len = PAGE_SIZE - poff; -//ust// page = ltt_relay_read_get_page(buf, roffset); -//ust// spd.pages[spd.nr_pages] = page->page; -//ust// spd.partial[spd.nr_pages].offset = poff; -//ust// spd.partial[spd.nr_pages].len = this_len; -//ust// -//ust// poff = 0; -//ust// roffset += PAGE_SIZE; -//ust// len -= this_len; -//ust// } -//ust// -//ust// if (!spd.nr_pages) -//ust// return 0; -//ust// -//ust// return splice_to_pipe(pipe, &spd); -//ust// } - -//ust// static ssize_t ltt_relay_file_splice_read(struct file *in, -//ust// loff_t *ppos, -//ust// struct pipe_inode_info *pipe, -//ust// size_t len, -//ust// unsigned int flags) -//ust// { -//ust// ssize_t spliced; -//ust// int ret; -//ust// -//ust// ret = 0; -//ust// spliced = 0; -//ust// -//ust// printk_dbg(KERN_DEBUG "SPLICE read len %zu pos %zd\n", -//ust// len, (ssize_t)*ppos); -//ust// while (len && !spliced) { -//ust// ret = subbuf_splice_actor(in, ppos, pipe, len, flags); -//ust// printk_dbg(KERN_DEBUG "SPLICE read loop ret %d\n", ret); -//ust// if (ret < 0) -//ust// break; -//ust// else if (!ret) { -//ust// if (flags & SPLICE_F_NONBLOCK) -//ust// ret = -EAGAIN; -//ust// break; -//ust// } -//ust// -//ust// *ppos += ret; -//ust// if (ret > len) -//ust// len = 0; -//ust// else -//ust// len -= ret; -//ust// spliced += ret; -//ust// } -//ust// -//ust// if (spliced) -//ust// return spliced; -//ust// -//ust// return ret; -//ust// } - -static void ltt_relay_print_subbuffer_errors( - struct ltt_channel_struct *ltt_chan, - long cons_off) -{ - struct rchan *rchan = ltt_chan->trans_channel_data; - struct ltt_channel_buf_struct *ltt_buf = ltt_chan->buf; - long cons_idx, commit_count, write_offset; - - cons_idx = SUBBUF_INDEX(cons_off, rchan); - commit_count = local_read(<t_buf->commit_count[cons_idx]); - /* - * No need to order commit_count and write_offset reads because we - * execute after trace is stopped when there are no readers left. - */ - write_offset = local_read(<t_buf->offset); - printk(KERN_WARNING - "LTT : unread channel %s offset is %ld " - "and cons_off : %ld\n", - ltt_chan->channel_name, write_offset, cons_off); - /* Check each sub-buffer for non filled commit count */ - if (((commit_count - rchan->subbuf_size) & ltt_chan->commit_count_mask) - - (BUFFER_TRUNC(cons_off, rchan) >> ltt_chan->n_subbufs_order) - != 0) - printk(KERN_ALERT - "LTT : %s : subbuffer %lu has non filled " - "commit count %lu.\n", - ltt_chan->channel_name, cons_idx, commit_count); - printk(KERN_ALERT "LTT : %s : commit count : %lu, subbuf size %zd\n", - ltt_chan->channel_name, commit_count, - rchan->subbuf_size); -} - -static void ltt_relay_print_errors(struct ltt_trace_struct *trace, - struct ltt_channel_struct *ltt_chan) -{ - struct rchan *rchan = ltt_chan->trans_channel_data; - struct ltt_channel_buf_struct *ltt_buf = ltt_chan->buf; - long cons_off; - - for (cons_off = atomic_long_read(<t_buf->consumed); - (SUBBUF_TRUNC(local_read(<t_buf->offset), - rchan) - - cons_off) > 0; - cons_off = SUBBUF_ALIGN(cons_off, rchan)) - ltt_relay_print_subbuffer_errors(ltt_chan, cons_off); -} - -static void ltt_relay_print_buffer_errors(struct ltt_channel_struct *ltt_chan) -{ - struct ltt_trace_struct *trace = ltt_chan->trace; - struct ltt_channel_buf_struct *ltt_buf = ltt_chan->buf; - - if (local_read(<t_buf->events_lost)) - printk(KERN_ALERT - "LTT : %s : %ld events lost " - "in %s channel.\n", - ltt_chan->channel_name, - local_read(<t_buf->events_lost), - ltt_chan->channel_name); - if (local_read(<t_buf->corrupted_subbuffers)) - printk(KERN_ALERT - "LTT : %s : %ld corrupted subbuffers " - "in %s channel.\n", - ltt_chan->channel_name, - local_read(<t_buf->corrupted_subbuffers), - ltt_chan->channel_name); - - ltt_relay_print_errors(trace, ltt_chan); -} - -static void ltt_relay_remove_dirs(struct ltt_trace_struct *trace) -{ -//ust// debugfs_remove(trace->dentry.trace_root); -} - -static void ltt_relay_release_channel(struct kref *kref) -{ - struct ltt_channel_struct *ltt_chan = container_of(kref, - struct ltt_channel_struct, kref); - free(ltt_chan->buf); -} - -/* - * Create ltt buffer. - */ -//ust// static int ltt_relay_create_buffer(struct ltt_trace_struct *trace, -//ust// struct ltt_channel_struct *ltt_chan, struct rchan_buf *buf, -//ust// unsigned int cpu, unsigned int n_subbufs) -//ust// { -//ust// struct ltt_channel_buf_struct *ltt_buf = -//ust// percpu_ptr(ltt_chan->buf, cpu); -//ust// unsigned int j; -//ust// -//ust// ltt_buf->commit_count = -//ust// kzalloc_node(sizeof(ltt_buf->commit_count) * n_subbufs, -//ust// GFP_KERNEL, cpu_to_node(cpu)); -//ust// if (!ltt_buf->commit_count) -//ust// return -ENOMEM; -//ust// kref_get(&trace->kref); -//ust// kref_get(&trace->ltt_transport_kref); -//ust// kref_get(<t_chan->kref); -//ust// local_set(<t_buf->offset, ltt_subbuffer_header_size()); -//ust// atomic_long_set(<t_buf->consumed, 0); -//ust// atomic_long_set(<t_buf->active_readers, 0); -//ust// for (j = 0; j < n_subbufs; j++) -//ust// local_set(<t_buf->commit_count[j], 0); -//ust// init_waitqueue_head(<t_buf->write_wait); -//ust// atomic_set(<t_buf->wakeup_readers, 0); -//ust// spin_lock_init(<t_buf->full_lock); -//ust// -//ust// ltt_buffer_begin_callback(buf, trace->start_tsc, 0); -//ust// /* atomic_add made on local variable on data that belongs to -//ust// * various CPUs : ok because tracing not started (for this cpu). */ -//ust// local_add(ltt_subbuffer_header_size(), <t_buf->commit_count[0]); -//ust// -//ust// local_set(<t_buf->events_lost, 0); -//ust// local_set(<t_buf->corrupted_subbuffers, 0); -//ust// -//ust// return 0; -//ust// } - -static int ltt_relay_create_buffer(struct ltt_trace_struct *trace, - struct ltt_channel_struct *ltt_chan, struct rchan_buf *buf, - unsigned int n_subbufs) -{ - struct ltt_channel_buf_struct *ltt_buf = ltt_chan->buf; - unsigned int j; - int fds[2]; - int result; - - ltt_buf->commit_count = - zmalloc(sizeof(ltt_buf->commit_count) * n_subbufs); - if (!ltt_buf->commit_count) - return -ENOMEM; - kref_get(&trace->kref); - kref_get(&trace->ltt_transport_kref); - kref_get(<t_chan->kref); - local_set(<t_buf->offset, ltt_subbuffer_header_size()); - atomic_long_set(<t_buf->consumed, 0); - atomic_long_set(<t_buf->active_readers, 0); - for (j = 0; j < n_subbufs; j++) - local_set(<t_buf->commit_count[j], 0); -//ust// init_waitqueue_head(<t_buf->write_wait); -//ust// atomic_set(<t_buf->wakeup_readers, 0); -//ust// spin_lock_init(<t_buf->full_lock); - - ltt_buffer_begin_callback(buf, trace->start_tsc, 0); - - local_add(ltt_subbuffer_header_size(), <t_buf->commit_count[0]); - - local_set(<t_buf->events_lost, 0); - local_set(<t_buf->corrupted_subbuffers, 0); - - result = pipe(fds); - if(result == -1) { - PERROR("pipe"); - return -1; - } - ltt_buf->data_ready_fd_read = fds[0]; - ltt_buf->data_ready_fd_write = fds[1]; - - /* FIXME: do we actually need this? */ - result = fcntl(fds[0], F_SETFL, O_NONBLOCK); - if(result == -1) { - PERROR("fcntl"); - } - -//ust// ltt_buf->commit_seq = malloc(sizeof(ltt_buf->commit_seq) * n_subbufs); -//ust// if(!ltt_buf->commit_seq) { -//ust// return -1; -//ust// } - - /* FIXME: decrementally destroy on error */ - - return 0; -} - -static void ltt_relay_destroy_buffer(struct ltt_channel_struct *ltt_chan) -{ - struct ltt_trace_struct *trace = ltt_chan->trace; - struct ltt_channel_buf_struct *ltt_buf = ltt_chan->buf; - - kref_put(<t_chan->trace->ltt_transport_kref, - ltt_release_transport); - ltt_relay_print_buffer_errors(ltt_chan); -//ust// free(ltt_buf->commit_seq); - kfree(ltt_buf->commit_count); - ltt_buf->commit_count = NULL; - kref_put(<t_chan->kref, ltt_relay_release_channel); - kref_put(&trace->kref, ltt_release_trace); -//ust// wake_up_interruptible(&trace->kref_wq); -} - -static void ltt_chan_alloc_ltt_buf(struct ltt_channel_struct *ltt_chan) -{ - void *ptr; - int result; - - /* Get one page */ - /* FIXME: increase size if we have a seq_commit array that overflows the page */ - size_t size = PAGE_ALIGN(1); - - result = ltt_chan->buf_shmid = shmget(getpid(), size, IPC_CREAT | IPC_EXCL | 0700); - if(ltt_chan->buf_shmid == -1) { - PERROR("shmget"); - return; - } - - ptr = shmat(ltt_chan->buf_shmid, NULL, 0); - if(ptr == (void *) -1) { - perror("shmat"); - goto destroy_shmem; - } - - /* Already mark the shared memory for destruction. This will occur only - * when all users have detached. - */ - result = shmctl(ltt_chan->buf_shmid, IPC_RMID, NULL); - if(result == -1) { - perror("shmctl"); - return; - } - - ltt_chan->buf = ptr; - - return; - - destroy_shmem: - result = shmctl(ltt_chan->buf_shmid, IPC_RMID, NULL); - if(result == -1) { - perror("shmctl"); - } - - return; -} - -/* - * Create channel. - */ -static int ltt_relay_create_channel(const char *trace_name, - struct ltt_trace_struct *trace, struct dentry *dir, - const char *channel_name, struct ltt_channel_struct *ltt_chan, - unsigned int subbuf_size, unsigned int n_subbufs, - int overwrite) -{ - char *tmpname; - unsigned int tmpname_len; - int err = 0; - - tmpname = kmalloc(PATH_MAX, GFP_KERNEL); - if (!tmpname) - return EPERM; - if (overwrite) { - strncpy(tmpname, LTT_FLIGHT_PREFIX, PATH_MAX-1); - strncat(tmpname, channel_name, - PATH_MAX-1-sizeof(LTT_FLIGHT_PREFIX)); - } else { - strncpy(tmpname, channel_name, PATH_MAX-1); - } - strncat(tmpname, "_", PATH_MAX-1-strlen(tmpname)); - - kref_init(<t_chan->kref); - - ltt_chan->trace = trace; - ltt_chan->buffer_begin = ltt_buffer_begin_callback; - ltt_chan->buffer_end = ltt_buffer_end_callback; - ltt_chan->overwrite = overwrite; - ltt_chan->n_subbufs_order = get_count_order(n_subbufs); - ltt_chan->commit_count_mask = (~0UL >> ltt_chan->n_subbufs_order); -//ust// ltt_chan->buf = percpu_alloc_mask(sizeof(struct ltt_channel_buf_struct), GFP_KERNEL, cpu_possible_map); - - ltt_chan_alloc_ltt_buf(ltt_chan); - -//ust// ltt_chan->buf = malloc(sizeof(struct ltt_channel_buf_struct)); - if (!ltt_chan->buf) - goto alloc_error; - ltt_chan->trans_channel_data = ltt_relay_open(tmpname, - dir, - subbuf_size, - n_subbufs, - ltt_chan); - tmpname_len = strlen(tmpname); - if (tmpname_len > 0) { - /* Remove final _ for pretty printing */ - tmpname[tmpname_len-1] = '\0'; - } - if (ltt_chan->trans_channel_data == NULL) { - printk(KERN_ERR "LTT : Can't open %s channel for trace %s\n", - tmpname, trace_name); - goto relay_open_error; - } - - err = 0; - goto end; - -relay_open_error: -//ust// percpu_free(ltt_chan->buf); -alloc_error: - err = EPERM; -end: - kfree(tmpname); - return err; -} - -static int ltt_relay_create_dirs(struct ltt_trace_struct *new_trace) -{ -//ust// new_trace->dentry.trace_root = debugfs_create_dir(new_trace->trace_name, -//ust// get_ltt_root()); -//ust// if (new_trace->dentry.trace_root == NULL) { -//ust// printk(KERN_ERR "LTT : Trace directory name %s already taken\n", -//ust// new_trace->trace_name); -//ust// return EEXIST; -//ust// } - -//ust// new_trace->callbacks.create_buf_file = ltt_create_buf_file_callback; -//ust// new_trace->callbacks.remove_buf_file = ltt_remove_buf_file_callback; - - return 0; -} - -/* - * LTTng channel flush function. - * - * Must be called when no tracing is active in the channel, because of - * accesses across CPUs. - */ -static notrace void ltt_relay_buffer_flush(struct rchan_buf *buf) -{ - struct ltt_channel_struct *channel = - (struct ltt_channel_struct *)buf->chan->private_data; - struct ltt_channel_buf_struct *ltt_buf = channel->buf; - int result; - - buf->finalized = 1; - ltt_force_switch(buf, FORCE_FLUSH); - - result = write(ltt_buf->data_ready_fd_write, "1", 1); - if(result == -1) { - PERROR("write (in ltt_relay_buffer_flush)"); - ERR("this should never happen!"); - } -} - -static void ltt_relay_async_wakeup_chan(struct ltt_channel_struct *ltt_channel) -{ -//ust// unsigned int i; -//ust// struct rchan *rchan = ltt_channel->trans_channel_data; -//ust// -//ust// for_each_possible_cpu(i) { -//ust// struct ltt_channel_buf_struct *ltt_buf = -//ust// percpu_ptr(ltt_channel->buf, i); -//ust// -//ust// if (atomic_read(<t_buf->wakeup_readers) == 1) { -//ust// atomic_set(<t_buf->wakeup_readers, 0); -//ust// wake_up_interruptible(&rchan->buf[i]->read_wait); -//ust// } -//ust// } -} - -static void ltt_relay_finish_buffer(struct ltt_channel_struct *ltt_channel) -{ - struct rchan *rchan = ltt_channel->trans_channel_data; -// int result; - - if (rchan->buf) { - struct ltt_channel_buf_struct *ltt_buf = ltt_channel->buf; - ltt_relay_buffer_flush(rchan->buf); -//ust// ltt_relay_wake_writers(ltt_buf); - /* closing the pipe tells the consumer the buffer is finished */ - - //result = write(ltt_buf->data_ready_fd_write, "D", 1); - //if(result == -1) { - // PERROR("write (in ltt_relay_finish_buffer)"); - // ERR("this should never happen!"); - //} - close(ltt_buf->data_ready_fd_write); - } -} - - -static void ltt_relay_finish_channel(struct ltt_channel_struct *ltt_channel) -{ -//ust// unsigned int i; - -//ust// for_each_possible_cpu(i) - ltt_relay_finish_buffer(ltt_channel); -} - -static void ltt_relay_remove_channel(struct ltt_channel_struct *channel) -{ - struct rchan *rchan = channel->trans_channel_data; - - ltt_relay_close(rchan); - kref_put(&channel->kref, ltt_relay_release_channel); -} - -struct ltt_reserve_switch_offsets { - long begin, end, old; - long begin_switch, end_switch_current, end_switch_old; - long commit_count, reserve_commit_diff; - size_t before_hdr_pad, size; -}; - -/* - * Returns : - * 0 if ok - * !0 if execution must be aborted. - */ -static inline int ltt_relay_try_reserve( - struct ltt_channel_struct *ltt_channel, - struct ltt_channel_buf_struct *ltt_buf, struct rchan *rchan, - struct rchan_buf *buf, - struct ltt_reserve_switch_offsets *offsets, size_t data_size, - u64 *tsc, unsigned int *rflags, int largest_align) -{ - offsets->begin = local_read(<t_buf->offset); - offsets->old = offsets->begin; - offsets->begin_switch = 0; - offsets->end_switch_current = 0; - offsets->end_switch_old = 0; - - *tsc = trace_clock_read64(); - if (last_tsc_overflow(ltt_buf, *tsc)) - *rflags = LTT_RFLAG_ID_SIZE_TSC; - - if (SUBBUF_OFFSET(offsets->begin, buf->chan) == 0) { - offsets->begin_switch = 1; /* For offsets->begin */ - } else { - offsets->size = ltt_get_header_size(ltt_channel, - offsets->begin, data_size, - &offsets->before_hdr_pad, *rflags); - offsets->size += ltt_align(offsets->begin + offsets->size, - largest_align) - + data_size; - if ((SUBBUF_OFFSET(offsets->begin, buf->chan) + offsets->size) - > buf->chan->subbuf_size) { - offsets->end_switch_old = 1; /* For offsets->old */ - offsets->begin_switch = 1; /* For offsets->begin */ - } - } - if (offsets->begin_switch) { - long subbuf_index; - - if (offsets->end_switch_old) - offsets->begin = SUBBUF_ALIGN(offsets->begin, - buf->chan); - offsets->begin = offsets->begin + ltt_subbuffer_header_size(); - /* Test new buffer integrity */ - subbuf_index = SUBBUF_INDEX(offsets->begin, buf->chan); - offsets->reserve_commit_diff = - (BUFFER_TRUNC(offsets->begin, buf->chan) - >> ltt_channel->n_subbufs_order) - - (local_read(<t_buf->commit_count[subbuf_index]) - & ltt_channel->commit_count_mask); - if (offsets->reserve_commit_diff == 0) { - long consumed; - - consumed = atomic_long_read(<t_buf->consumed); - - /* Next buffer not corrupted. */ - if (!ltt_channel->overwrite && - (SUBBUF_TRUNC(offsets->begin, buf->chan) - - SUBBUF_TRUNC(consumed, buf->chan)) - >= rchan->alloc_size) { - - long consumed_idx = SUBBUF_INDEX(consumed, buf->chan); - long commit_count = local_read(<t_buf->commit_count[consumed_idx]); - if(((commit_count - buf->chan->subbuf_size) & ltt_channel->commit_count_mask) - (BUFFER_TRUNC(consumed, buf->chan) >> ltt_channel->n_subbufs_order) != 0) { - WARN("Event dropped. Caused by non-committed event."); - } - else { - WARN("Event dropped. Caused by non-consumed buffer."); - } - /* - * We do not overwrite non consumed buffers - * and we are full : event is lost. - */ - local_inc(<t_buf->events_lost); - return -1; - } else { - /* - * next buffer not corrupted, we are either in - * overwrite mode or the buffer is not full. - * It's safe to write in this new subbuffer. - */ - } - } else { - /* - * Next subbuffer corrupted. Force pushing reader even - * in normal mode. It's safe to write in this new - * subbuffer. - */ - } - offsets->size = ltt_get_header_size(ltt_channel, - offsets->begin, data_size, - &offsets->before_hdr_pad, *rflags); - offsets->size += ltt_align(offsets->begin + offsets->size, - largest_align) - + data_size; - if ((SUBBUF_OFFSET(offsets->begin, buf->chan) + offsets->size) - > buf->chan->subbuf_size) { - /* - * Event too big for subbuffers, report error, don't - * complete the sub-buffer switch. - */ - local_inc(<t_buf->events_lost); - return -1; - } else { - /* - * We just made a successful buffer switch and the event - * fits in the new subbuffer. Let's write. - */ - } - } else { - /* - * Event fits in the current buffer and we are not on a switch - * boundary. It's safe to write. - */ - } - offsets->end = offsets->begin + offsets->size; - - if ((SUBBUF_OFFSET(offsets->end, buf->chan)) == 0) { - /* - * The offset_end will fall at the very beginning of the next - * subbuffer. - */ - offsets->end_switch_current = 1; /* For offsets->begin */ - } - return 0; -} - -/* - * Returns : - * 0 if ok - * !0 if execution must be aborted. - */ -static inline int ltt_relay_try_switch( - enum force_switch_mode mode, - struct ltt_channel_struct *ltt_channel, - struct ltt_channel_buf_struct *ltt_buf, struct rchan *rchan, - struct rchan_buf *buf, - struct ltt_reserve_switch_offsets *offsets, - u64 *tsc) -{ - long subbuf_index; - - offsets->begin = local_read(<t_buf->offset); - offsets->old = offsets->begin; - offsets->begin_switch = 0; - offsets->end_switch_old = 0; - - *tsc = trace_clock_read64(); - - if (SUBBUF_OFFSET(offsets->begin, buf->chan) != 0) { - offsets->begin = SUBBUF_ALIGN(offsets->begin, buf->chan); - offsets->end_switch_old = 1; - } else { - /* we do not have to switch : buffer is empty */ - return -1; - } - if (mode == FORCE_ACTIVE) - offsets->begin += ltt_subbuffer_header_size(); - /* - * Always begin_switch in FORCE_ACTIVE mode. - * Test new buffer integrity - */ - subbuf_index = SUBBUF_INDEX(offsets->begin, buf->chan); - offsets->reserve_commit_diff = - (BUFFER_TRUNC(offsets->begin, buf->chan) - >> ltt_channel->n_subbufs_order) - - (local_read(<t_buf->commit_count[subbuf_index]) - & ltt_channel->commit_count_mask); - if (offsets->reserve_commit_diff == 0) { - /* Next buffer not corrupted. */ - if (mode == FORCE_ACTIVE - && !ltt_channel->overwrite - && offsets->begin - atomic_long_read(<t_buf->consumed) - >= rchan->alloc_size) { - /* - * We do not overwrite non consumed buffers and we are - * full : ignore switch while tracing is active. - */ - return -1; - } - } else { - /* - * Next subbuffer corrupted. Force pushing reader even in normal - * mode - */ - } - offsets->end = offsets->begin; - return 0; -} - -static inline void ltt_reserve_push_reader( - struct ltt_channel_struct *ltt_channel, - struct ltt_channel_buf_struct *ltt_buf, - struct rchan *rchan, - struct rchan_buf *buf, - struct ltt_reserve_switch_offsets *offsets) -{ - long consumed_old, consumed_new; - - do { - consumed_old = atomic_long_read(<t_buf->consumed); - /* - * If buffer is in overwrite mode, push the reader consumed - * count if the write position has reached it and we are not - * at the first iteration (don't push the reader farther than - * the writer). This operation can be done concurrently by many - * writers in the same buffer, the writer being at the farthest - * write position sub-buffer index in the buffer being the one - * which will win this loop. - * If the buffer is not in overwrite mode, pushing the reader - * only happens if a sub-buffer is corrupted. - */ - if ((SUBBUF_TRUNC(offsets->end-1, buf->chan) - - SUBBUF_TRUNC(consumed_old, buf->chan)) - >= rchan->alloc_size) - consumed_new = SUBBUF_ALIGN(consumed_old, buf->chan); - else { - consumed_new = consumed_old; - break; - } - } while (atomic_long_cmpxchg(<t_buf->consumed, consumed_old, - consumed_new) != consumed_old); - - if (consumed_old != consumed_new) { - /* - * Reader pushed : we are the winner of the push, we can - * therefore reequilibrate reserve and commit. Atomic increment - * of the commit count permits other writers to play around - * with this variable before us. We keep track of - * corrupted_subbuffers even in overwrite mode : - * we never want to write over a non completely committed - * sub-buffer : possible causes : the buffer size is too low - * compared to the unordered data input, or there is a writer - * that died between the reserve and the commit. - */ - if (offsets->reserve_commit_diff) { - /* - * We have to alter the sub-buffer commit count. - * We do not deliver the previous subbuffer, given it - * was either corrupted or not consumed (overwrite - * mode). - */ - local_add(offsets->reserve_commit_diff, - <t_buf->commit_count[ - SUBBUF_INDEX(offsets->begin, - buf->chan)]); - if (!ltt_channel->overwrite - || offsets->reserve_commit_diff - != rchan->subbuf_size) { - /* - * The reserve commit diff was not subbuf_size : - * it means the subbuffer was partly written to - * and is therefore corrupted. If it is multiple - * of subbuffer size and we are in flight - * recorder mode, we are skipping over a whole - * subbuffer. - */ - local_inc(<t_buf->corrupted_subbuffers); - } - } - } -} - - -/* - * ltt_reserve_switch_old_subbuf: switch old subbuffer - * - * Concurrency safe because we are the last and only thread to alter this - * sub-buffer. As long as it is not delivered and read, no other thread can - * alter the offset, alter the reserve_count or call the - * client_buffer_end_callback on this sub-buffer. - * - * The only remaining threads could be the ones with pending commits. They will - * have to do the deliver themselves. Not concurrency safe in overwrite mode. - * We detect corrupted subbuffers with commit and reserve counts. We keep a - * corrupted sub-buffers count and push the readers across these sub-buffers. - * - * Not concurrency safe if a writer is stalled in a subbuffer and another writer - * switches in, finding out it's corrupted. The result will be than the old - * (uncommited) subbuffer will be declared corrupted, and that the new subbuffer - * will be declared corrupted too because of the commit count adjustment. - * - * Note : offset_old should never be 0 here. - */ -static inline void ltt_reserve_switch_old_subbuf( - struct ltt_channel_struct *ltt_channel, - struct ltt_channel_buf_struct *ltt_buf, struct rchan *rchan, - struct rchan_buf *buf, - struct ltt_reserve_switch_offsets *offsets, u64 *tsc) -{ - long oldidx = SUBBUF_INDEX(offsets->old - 1, rchan); - - ltt_channel->buffer_end(buf, *tsc, offsets->old, oldidx); - /* Must write buffer end before incrementing commit count */ - smp_wmb(); - offsets->commit_count = - local_add_return(rchan->subbuf_size - - (SUBBUF_OFFSET(offsets->old - 1, rchan) - + 1), - <t_buf->commit_count[oldidx]); - if ((BUFFER_TRUNC(offsets->old - 1, rchan) - >> ltt_channel->n_subbufs_order) - - ((offsets->commit_count - rchan->subbuf_size) - & ltt_channel->commit_count_mask) == 0) - ltt_deliver(buf, oldidx, offsets->commit_count); -} - -/* - * ltt_reserve_switch_new_subbuf: Populate new subbuffer. - * - * This code can be executed unordered : writers may already have written to the - * sub-buffer before this code gets executed, caution. The commit makes sure - * that this code is executed before the deliver of this sub-buffer. - */ -static /*inline*/ void ltt_reserve_switch_new_subbuf( - struct ltt_channel_struct *ltt_channel, - struct ltt_channel_buf_struct *ltt_buf, struct rchan *rchan, - struct rchan_buf *buf, - struct ltt_reserve_switch_offsets *offsets, u64 *tsc) -{ - long beginidx = SUBBUF_INDEX(offsets->begin, rchan); - - ltt_channel->buffer_begin(buf, *tsc, beginidx); - /* Must write buffer end before incrementing commit count */ - smp_wmb(); - offsets->commit_count = local_add_return(ltt_subbuffer_header_size(), - <t_buf->commit_count[beginidx]); - /* Check if the written buffer has to be delivered */ - if ((BUFFER_TRUNC(offsets->begin, rchan) - >> ltt_channel->n_subbufs_order) - - ((offsets->commit_count - rchan->subbuf_size) - & ltt_channel->commit_count_mask) == 0) - ltt_deliver(buf, beginidx, offsets->commit_count); -} - - -/* - * ltt_reserve_end_switch_current: finish switching current subbuffer - * - * Concurrency safe because we are the last and only thread to alter this - * sub-buffer. As long as it is not delivered and read, no other thread can - * alter the offset, alter the reserve_count or call the - * client_buffer_end_callback on this sub-buffer. - * - * The only remaining threads could be the ones with pending commits. They will - * have to do the deliver themselves. Not concurrency safe in overwrite mode. - * We detect corrupted subbuffers with commit and reserve counts. We keep a - * corrupted sub-buffers count and push the readers across these sub-buffers. - * - * Not concurrency safe if a writer is stalled in a subbuffer and another writer - * switches in, finding out it's corrupted. The result will be than the old - * (uncommited) subbuffer will be declared corrupted, and that the new subbuffer - * will be declared corrupted too because of the commit count adjustment. - */ -static inline void ltt_reserve_end_switch_current( - struct ltt_channel_struct *ltt_channel, - struct ltt_channel_buf_struct *ltt_buf, struct rchan *rchan, - struct rchan_buf *buf, - struct ltt_reserve_switch_offsets *offsets, u64 *tsc) -{ - long endidx = SUBBUF_INDEX(offsets->end - 1, rchan); - - ltt_channel->buffer_end(buf, *tsc, offsets->end, endidx); - /* Must write buffer begin before incrementing commit count */ - smp_wmb(); - offsets->commit_count = - local_add_return(rchan->subbuf_size - - (SUBBUF_OFFSET(offsets->end - 1, rchan) - + 1), - <t_buf->commit_count[endidx]); - if ((BUFFER_TRUNC(offsets->end - 1, rchan) - >> ltt_channel->n_subbufs_order) - - ((offsets->commit_count - rchan->subbuf_size) - & ltt_channel->commit_count_mask) == 0) - ltt_deliver(buf, endidx, offsets->commit_count); -} - -/** - * ltt_relay_reserve_slot - Atomic slot reservation in a LTTng buffer. - * @trace: the trace structure to log to. - * @ltt_channel: channel structure - * @transport_data: data structure specific to ltt relay - * @data_size: size of the variable length data to log. - * @slot_size: pointer to total size of the slot (out) - * @buf_offset : pointer to reserved buffer offset (out) - * @tsc: pointer to the tsc at the slot reservation (out) - * @cpu: cpuid - * - * Return : -ENOSPC if not enough space, else returns 0. - * It will take care of sub-buffer switching. - */ -static notrace int ltt_relay_reserve_slot(struct ltt_trace_struct *trace, - struct ltt_channel_struct *ltt_channel, void **transport_data, - size_t data_size, size_t *slot_size, long *buf_offset, u64 *tsc, - unsigned int *rflags, int largest_align) -{ - struct rchan *rchan = ltt_channel->trans_channel_data; - struct rchan_buf *buf = *transport_data = rchan->buf; - struct ltt_channel_buf_struct *ltt_buf = ltt_channel->buf; - struct ltt_reserve_switch_offsets offsets; - - offsets.reserve_commit_diff = 0; - offsets.size = 0; - - /* - * Perform retryable operations. - */ - if (ltt_nesting > 4) { - local_inc(<t_buf->events_lost); - return -EPERM; - } - do { - if (ltt_relay_try_reserve(ltt_channel, ltt_buf, - rchan, buf, &offsets, data_size, tsc, rflags, - largest_align)) - return -ENOSPC; - } while (local_cmpxchg(<t_buf->offset, offsets.old, - offsets.end) != offsets.old); - - /* - * Atomically update last_tsc. This update races against concurrent - * atomic updates, but the race will always cause supplementary full TSC - * events, never the opposite (missing a full TSC event when it would be - * needed). - */ - save_last_tsc(ltt_buf, *tsc); - - /* - * Push the reader if necessary - */ - ltt_reserve_push_reader(ltt_channel, ltt_buf, rchan, buf, &offsets); - - /* - * Switch old subbuffer if needed. - */ - if (offsets.end_switch_old) - ltt_reserve_switch_old_subbuf(ltt_channel, ltt_buf, rchan, buf, - &offsets, tsc); - - /* - * Populate new subbuffer. - */ - if (offsets.begin_switch) - ltt_reserve_switch_new_subbuf(ltt_channel, ltt_buf, rchan, - buf, &offsets, tsc); - - if (offsets.end_switch_current) - ltt_reserve_end_switch_current(ltt_channel, ltt_buf, rchan, - buf, &offsets, tsc); - - *slot_size = offsets.size; - *buf_offset = offsets.begin + offsets.before_hdr_pad; - return 0; -} - -/* - * Force a sub-buffer switch for a per-cpu buffer. This operation is - * completely reentrant : can be called while tracing is active with - * absolutely no lock held. - * - * Note, however, that as a local_cmpxchg is used for some atomic - * operations, this function must be called from the CPU which owns the buffer - * for a ACTIVE flush. - */ -static notrace void ltt_force_switch(struct rchan_buf *buf, - enum force_switch_mode mode) -{ - struct ltt_channel_struct *ltt_channel = - (struct ltt_channel_struct *)buf->chan->private_data; - struct ltt_channel_buf_struct *ltt_buf = ltt_channel->buf; - struct rchan *rchan = ltt_channel->trans_channel_data; - struct ltt_reserve_switch_offsets offsets; - u64 tsc; - - offsets.reserve_commit_diff = 0; - offsets.size = 0; - - /* - * Perform retryable operations. - */ - do { - if (ltt_relay_try_switch(mode, ltt_channel, ltt_buf, - rchan, buf, &offsets, &tsc)) - return; - } while (local_cmpxchg(<t_buf->offset, offsets.old, - offsets.end) != offsets.old); - - /* - * Atomically update last_tsc. This update races against concurrent - * atomic updates, but the race will always cause supplementary full TSC - * events, never the opposite (missing a full TSC event when it would be - * needed). - */ - save_last_tsc(ltt_buf, tsc); - - /* - * Push the reader if necessary - */ - if (mode == FORCE_ACTIVE) - ltt_reserve_push_reader(ltt_channel, ltt_buf, rchan, - buf, &offsets); - - /* - * Switch old subbuffer if needed. - */ - if (offsets.end_switch_old) - ltt_reserve_switch_old_subbuf(ltt_channel, ltt_buf, rchan, buf, - &offsets, &tsc); - - /* - * Populate new subbuffer. - */ - if (mode == FORCE_ACTIVE) - ltt_reserve_switch_new_subbuf(ltt_channel, - ltt_buf, rchan, buf, &offsets, &tsc); -} - -/* - * This is called with preemption disabled when user space has requested - * blocking mode. If one of the active traces has free space below a - * specific threshold value, we reenable preemption and block. - */ -static int ltt_relay_user_blocking(struct ltt_trace_struct *trace, - unsigned int chan_index, size_t data_size, - struct user_dbg_data *dbg) -{ -//ust// struct rchan *rchan; -//ust// struct ltt_channel_buf_struct *ltt_buf; -//ust// struct ltt_channel_struct *channel; -//ust// struct rchan_buf *relay_buf; -//ust// int cpu; -//ust// DECLARE_WAITQUEUE(wait, current); -//ust// -//ust// channel = &trace->channels[chan_index]; -//ust// rchan = channel->trans_channel_data; -//ust// cpu = smp_processor_id(); -//ust// relay_buf = rchan->buf[cpu]; -//ust// ltt_buf = percpu_ptr(channel->buf, cpu); -//ust// -//ust// /* -//ust// * Check if data is too big for the channel : do not -//ust// * block for it. -//ust// */ -//ust// if (LTT_RESERVE_CRITICAL + data_size > relay_buf->chan->subbuf_size) -//ust// return 0; -//ust// -//ust// /* -//ust// * If free space too low, we block. We restart from the -//ust// * beginning after we resume (cpu id may have changed -//ust// * while preemption is active). -//ust// */ -//ust// spin_lock(<t_buf->full_lock); -//ust// if (!channel->overwrite) { -//ust// dbg->write = local_read(<t_buf->offset); -//ust// dbg->read = atomic_long_read(<t_buf->consumed); -//ust// dbg->avail_size = dbg->write + LTT_RESERVE_CRITICAL + data_size -//ust// - SUBBUF_TRUNC(dbg->read, -//ust// relay_buf->chan); -//ust// if (dbg->avail_size > rchan->alloc_size) { -//ust// __set_current_state(TASK_INTERRUPTIBLE); -//ust// add_wait_queue(<t_buf->write_wait, &wait); -//ust// spin_unlock(<t_buf->full_lock); -//ust// preempt_enable(); -//ust// schedule(); -//ust// __set_current_state(TASK_RUNNING); -//ust// remove_wait_queue(<t_buf->write_wait, &wait); -//ust// if (signal_pending(current)) -//ust// return -ERESTARTSYS; -//ust// preempt_disable(); -//ust// return 1; -//ust// } -//ust// } -//ust// spin_unlock(<t_buf->full_lock); - return 0; -} - -static void ltt_relay_print_user_errors(struct ltt_trace_struct *trace, - unsigned int chan_index, size_t data_size, - struct user_dbg_data *dbg) -{ - struct rchan *rchan; - struct ltt_channel_buf_struct *ltt_buf; - struct ltt_channel_struct *channel; - struct rchan_buf *relay_buf; - - channel = &trace->channels[chan_index]; - rchan = channel->trans_channel_data; - relay_buf = rchan->buf; - ltt_buf = channel->buf; - - printk(KERN_ERR "Error in LTT usertrace : " - "buffer full : event lost in blocking " - "mode. Increase LTT_RESERVE_CRITICAL.\n"); - printk(KERN_ERR "LTT nesting level is %u.\n", ltt_nesting); - printk(KERN_ERR "LTT avail size %lu.\n", - dbg->avail_size); - printk(KERN_ERR "avai write : %lu, read : %lu\n", - dbg->write, dbg->read); - - dbg->write = local_read(<t_buf->offset); - dbg->read = atomic_long_read(<t_buf->consumed); - - printk(KERN_ERR "LTT cur size %lu.\n", - dbg->write + LTT_RESERVE_CRITICAL + data_size - - SUBBUF_TRUNC(dbg->read, relay_buf->chan)); - printk(KERN_ERR "cur write : %lu, read : %lu\n", - dbg->write, dbg->read); -} - -//ust// static struct ltt_transport ltt_relay_transport = { -//ust// .name = "relay", -//ust// .owner = THIS_MODULE, -//ust// .ops = { -//ust// .create_dirs = ltt_relay_create_dirs, -//ust// .remove_dirs = ltt_relay_remove_dirs, -//ust// .create_channel = ltt_relay_create_channel, -//ust// .finish_channel = ltt_relay_finish_channel, -//ust// .remove_channel = ltt_relay_remove_channel, -//ust// .wakeup_channel = ltt_relay_async_wakeup_chan, -//ust// .commit_slot = ltt_relay_commit_slot, -//ust// .reserve_slot = ltt_relay_reserve_slot, -//ust// .user_blocking = ltt_relay_user_blocking, -//ust// .user_errors = ltt_relay_print_user_errors, -//ust// }, -//ust// }; - -static struct ltt_transport ust_relay_transport = { - .name = "ustrelay", -//ust// .owner = THIS_MODULE, - .ops = { - .create_dirs = ltt_relay_create_dirs, - .remove_dirs = ltt_relay_remove_dirs, - .create_channel = ltt_relay_create_channel, - .finish_channel = ltt_relay_finish_channel, - .remove_channel = ltt_relay_remove_channel, - .wakeup_channel = ltt_relay_async_wakeup_chan, -// .commit_slot = ltt_relay_commit_slot, - .reserve_slot = ltt_relay_reserve_slot, - .user_blocking = ltt_relay_user_blocking, - .user_errors = ltt_relay_print_user_errors, - }, -}; - -//ust// static int __init ltt_relay_init(void) -//ust// { -//ust// printk(KERN_INFO "LTT : ltt-relay init\n"); -//ust// -//ust// ltt_file_operations = ltt_relay_file_operations; -//ust// ltt_file_operations.owner = THIS_MODULE; -//ust// ltt_file_operations.open = ltt_open; -//ust// ltt_file_operations.release = ltt_release; -//ust// ltt_file_operations.poll = ltt_poll; -//ust// ltt_file_operations.splice_read = ltt_relay_file_splice_read, -//ust// ltt_file_operations.ioctl = ltt_ioctl; -//ust//#ifdef CONFIG_COMPAT -//ust// ltt_file_operations.compat_ioctl = ltt_compat_ioctl; -//ust//#endif -//ust// -//ust// ltt_transport_register(<t_relay_transport); -//ust// -//ust// return 0; -//ust// } - -/* - * for flight recording. must be called after relay_commit. - * This function decrements de subbuffer's lost_size each time the commit count - * reaches back the reserve offset (module subbuffer size). It is useful for - * crash dump. - */ -//ust// #ifdef CONFIG_LTT_VMCORE -static /* inline */ void ltt_write_commit_counter(struct rchan_buf *buf, - struct ltt_channel_buf_struct *ltt_buf, - long idx, long buf_offset, long commit_count, size_t data_size) -{ - long offset; - long commit_seq_old; - - offset = buf_offset + data_size; - - /* - * SUBBUF_OFFSET includes commit_count_mask. We can simply - * compare the offsets within the subbuffer without caring about - * buffer full/empty mismatch because offset is never zero here - * (subbuffer header and event headers have non-zero length). - */ - if (unlikely(SUBBUF_OFFSET(offset - commit_count, buf->chan))) - return; - - commit_seq_old = local_read(<t_buf->commit_seq[idx]); - while (commit_seq_old < commit_count) - commit_seq_old = local_cmpxchg(<t_buf->commit_seq[idx], - commit_seq_old, commit_count); -} -//ust// #else -//ust// static inline void ltt_write_commit_counter(struct rchan_buf *buf, -//ust// long buf_offset, size_t slot_size) -//ust// { -//ust// } -//ust// #endif - -/* - * Atomic unordered slot commit. Increments the commit count in the - * specified sub-buffer, and delivers it if necessary. - * - * Parameters: - * - * @ltt_channel : channel structure - * @transport_data: transport-specific data - * @buf_offset : offset following the event header. - * @data_size : size of the event data. - * @slot_size : size of the reserved slot. - */ -/* FIXME: make this function static inline in the .h! */ -/*static*/ /* inline */ notrace void ltt_commit_slot( - struct ltt_channel_struct *ltt_channel, - void **transport_data, long buf_offset, - size_t data_size, size_t slot_size) -{ - struct rchan_buf *buf = *transport_data; - struct ltt_channel_buf_struct *ltt_buf = ltt_channel->buf; - struct rchan *rchan = buf->chan; - long offset_end = buf_offset; - long endidx = SUBBUF_INDEX(offset_end - 1, rchan); - long commit_count; - - /* Must write slot data before incrementing commit count */ - smp_wmb(); - commit_count = local_add_return(slot_size, - <t_buf->commit_count[endidx]); - /* Check if all commits have been done */ - if ((BUFFER_TRUNC(offset_end - 1, rchan) - >> ltt_channel->n_subbufs_order) - - ((commit_count - rchan->subbuf_size) - & ltt_channel->commit_count_mask) == 0) - ltt_deliver(buf, endidx, commit_count); - /* - * Update lost_size for each commit. It's needed only for extracting - * ltt buffers from vmcore, after crash. - */ - ltt_write_commit_counter(buf, ltt_buf, endidx, - buf_offset, commit_count, data_size); -} - - -static char initialized = 0; - -void __attribute__((constructor)) init_ustrelay_transport(void) -{ - if(!initialized) { - ltt_transport_register(&ust_relay_transport); - initialized = 1; - } -} - -static void __attribute__((destructor)) ltt_relay_exit(void) -{ -//ust// printk(KERN_INFO "LTT : ltt-relay exit\n"); - - ltt_transport_unregister(&ust_relay_transport); -} - -//ust// module_init(ltt_relay_init); -//ust// module_exit(ltt_relay_exit); -//ust// -//ust// MODULE_LICENSE("GPL"); -//ust// MODULE_AUTHOR("Mathieu Desnoyers"); -//ust// MODULE_DESCRIPTION("Linux Trace Toolkit Next Generation Lockless Relay"); diff --git a/libust/relay.h b/libust/relay.h deleted file mode 100644 index 0e18279..0000000 --- a/libust/relay.h +++ /dev/null @@ -1,389 +0,0 @@ -/* - * linux/include/linux/ltt-relay.h - * - * Copyright (C) 2002, 2003 - Tom Zanussi (zanussi@us.ibm.com), IBM Corp - * Copyright (C) 1999, 2000, 2001, 2002 - Karim Yaghmour (karim@opersys.com) - * Copyright (C) 2008 - Mathieu Desnoyers (mathieu.desnoyers@polymtl.ca) - * - * CONFIG_RELAY definitions and declarations - */ - -#ifndef _LINUX_LTT_RELAY_H -#define _LINUX_LTT_RELAY_H - -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include -#include -#include -//#include "list.h" -#include "channels.h" -#include "buffer.h" - -/* Needs a _much_ better name... */ -#define FIX_SIZE(x) ((((x) - 1) & PAGE_MASK) + PAGE_SIZE) - -/* - * Tracks changes to rchan/rchan_buf structs - */ -#define LTT_RELAY_CHANNEL_VERSION 8 - -struct rchan_buf; - -struct buf_page { - struct page *page; - struct rchan_buf *buf; /* buffer the page belongs to */ - size_t offset; /* page offset in the buffer */ - struct list_head list; /* buffer linked list */ -}; - -/* - * Per-cpu relay channel buffer - */ -struct rchan_buf { - struct rchan *chan; /* associated channel */ -//ust// wait_queue_head_t read_wait; /* reader wait queue */ -//ust// struct timer_list timer; /* reader wake-up timer */ -//ust// struct dentry *dentry; /* channel file dentry */ - struct kref kref; /* channel buffer refcount */ -//ust// struct list_head pages; /* list of buffer pages */ - void *buf_data; //ust// - size_t buf_size; -//ust// struct buf_page *wpage; /* current write page (cache) */ -//ust// struct buf_page *hpage[2]; /* current subbuf header page (cache) */ -//ust// struct buf_page *rpage; /* current subbuf read page (cache) */ -//ust// unsigned int page_count; /* number of current buffer pages */ - unsigned int finalized; /* buffer has been finalized */ -//ust// unsigned int cpu; /* this buf's cpu */ - int shmid; /* the shmid of the buffer data pages */ -} ____cacheline_aligned; - -/* - * Relay channel data structure - */ -struct rchan { - u32 version; /* the version of this struct */ - size_t subbuf_size; /* sub-buffer size */ - size_t n_subbufs; /* number of sub-buffers per buffer */ - size_t alloc_size; /* total buffer size allocated */ - struct rchan_callbacks *cb; /* client callbacks */ - struct kref kref; /* channel refcount */ - void *private_data; /* for user-defined data */ -//ust// struct rchan_buf *buf[NR_CPUS]; /* per-cpu channel buffers */ - struct rchan_buf *buf; - struct list_head list; /* for channel list */ - struct dentry *parent; /* parent dentry passed to open */ - int subbuf_size_order; /* order of sub-buffer size */ -//ust// char base_filename[NAME_MAX]; /* saved base filename */ -}; - -/* - * Relay channel client callbacks - */ -struct rchan_callbacks { - /* - * subbuf_start - called on buffer-switch to a new sub-buffer - * @buf: the channel buffer containing the new sub-buffer - * @subbuf: the start of the new sub-buffer - * @prev_subbuf: the start of the previous sub-buffer - * @prev_padding: unused space at the end of previous sub-buffer - * - * The client should return 1 to continue logging, 0 to stop - * logging. - * - * NOTE: subbuf_start will also be invoked when the buffer is - * created, so that the first sub-buffer can be initialized - * if necessary. In this case, prev_subbuf will be NULL. - * - * NOTE: the client can reserve bytes at the beginning of the new - * sub-buffer by calling subbuf_start_reserve() in this callback. - */ - int (*subbuf_start) (struct rchan_buf *buf, - void *subbuf, - void *prev_subbuf, - size_t prev_padding); - - /* - * create_buf_file - create file to represent a relay channel buffer - * @filename: the name of the file to create - * @parent: the parent of the file to create - * @mode: the mode of the file to create - * @buf: the channel buffer - * - * Called during relay_open(), once for each per-cpu buffer, - * to allow the client to create a file to be used to - * represent the corresponding channel buffer. If the file is - * created outside of relay, the parent must also exist in - * that filesystem. - * - * The callback should return the dentry of the file created - * to represent the relay buffer. - * - * Setting the is_global outparam to a non-zero value will - * cause relay_open() to create a single global buffer rather - * than the default set of per-cpu buffers. - * - * See Documentation/filesystems/relayfs.txt for more info. - */ - struct dentry *(*create_buf_file)(const char *filename, - struct dentry *parent, - int mode, - struct rchan_buf *buf); - - /* - * remove_buf_file - remove file representing a relay channel buffer - * @dentry: the dentry of the file to remove - * - * Called during relay_close(), once for each per-cpu buffer, - * to allow the client to remove a file used to represent a - * channel buffer. - * - * The callback should return 0 if successful, negative if not. - */ -//ust// int (*remove_buf_file)(struct rchan_buf *buf); -}; - -extern struct buf_page *ltt_relay_find_prev_page(struct rchan_buf *buf, - struct buf_page *page, size_t offset, ssize_t diff_offset); - -extern struct buf_page *ltt_relay_find_next_page(struct rchan_buf *buf, - struct buf_page *page, size_t offset, ssize_t diff_offset); - -extern void _ltt_relay_write(struct rchan_buf *buf, size_t offset, - const void *src, size_t len, ssize_t cpy); - -extern int ltt_relay_read(struct rchan_buf *buf, size_t offset, - void *dest, size_t len); - -extern struct buf_page *ltt_relay_read_get_page(struct rchan_buf *buf, - size_t offset); - -/* - * Return the address where a given offset is located. - * Should be used to get the current subbuffer header pointer. Given we know - * it's never on a page boundary, it's safe to write directly to this address, - * as long as the write is never bigger than a page size. - */ -extern void *ltt_relay_offset_address(struct rchan_buf *buf, - size_t offset); - -/* - * Find the page containing "offset". Cache it if it is after the currently - * cached page. - */ -static inline struct buf_page *ltt_relay_cache_page(struct rchan_buf *buf, - struct buf_page **page_cache, - struct buf_page *page, size_t offset) -{ - ssize_t diff_offset; - ssize_t half_buf_size = buf->chan->alloc_size >> 1; - - /* - * Make sure this is the page we want to write into. The current - * page is changed concurrently by other writers. [wrh]page are - * used as a cache remembering the last page written - * to/read/looked up for header address. No synchronization; - * could have to find the previous page is a nested write - * occured. Finding the right page is done by comparing the - * dest_offset with the buf_page offsets. - * When at the exact opposite of the buffer, bias towards forward search - * because it will be cached. - */ - - diff_offset = (ssize_t)offset - (ssize_t)page->offset; - if (diff_offset <= -(ssize_t)half_buf_size) - diff_offset += buf->chan->alloc_size; - else if (diff_offset > half_buf_size) - diff_offset -= buf->chan->alloc_size; - - if (unlikely(diff_offset >= (ssize_t)PAGE_SIZE)) { - page = ltt_relay_find_next_page(buf, page, offset, diff_offset); - *page_cache = page; - } else if (unlikely(diff_offset < 0)) { - page = ltt_relay_find_prev_page(buf, page, offset, diff_offset); - } - return page; -} - -//ust// #ifdef CONFIG_HAVE_EFFICIENT_UNALIGNED_ACCESS -static inline void ltt_relay_do_copy(void *dest, const void *src, size_t len) -{ - union { - const void *src; - const u8 *src8; - const u16 *src16; - const u32 *src32; - const u64 *src64; - } u = { .src = src }; - - switch (len) { - case 0: break; - case 1: *(u8 *)dest = *u.src8; - break; - case 2: *(u16 *)dest = *u.src16; - break; - case 4: *(u32 *)dest = *u.src32; - break; -//ust// #if (BITS_PER_LONG == 64) - case 8: *(u64 *)dest = *u.src64; - break; -//ust// #endif - default: - memcpy(dest, src, len); - } -} -//ust// #else -//ust// /* -//ust// * Returns whether the dest and src addresses are aligned on -//ust// * min(sizeof(void *), len). Call this with statically known len for efficiency. -//ust// */ -//ust// static inline int addr_aligned(const void *dest, const void *src, size_t len) -//ust// { -//ust// if (ltt_align((size_t)dest, len)) -//ust// return 0; -//ust// if (ltt_align((size_t)src, len)) -//ust// return 0; -//ust// return 1; -//ust// } -//ust// -//ust// static inline void ltt_relay_do_copy(void *dest, const void *src, size_t len) -//ust// { -//ust// switch (len) { -//ust// case 0: break; -//ust// case 1: *(u8 *)dest = *(const u8 *)src; -//ust// break; -//ust// case 2: if (unlikely(!addr_aligned(dest, src, 2))) -//ust// goto memcpy_fallback; -//ust// *(u16 *)dest = *(const u16 *)src; -//ust// break; -//ust// case 4: if (unlikely(!addr_aligned(dest, src, 4))) -//ust// goto memcpy_fallback; -//ust// *(u32 *)dest = *(const u32 *)src; -//ust// break; -//ust// #if (BITS_PER_LONG == 64) -//ust// case 8: if (unlikely(!addr_aligned(dest, src, 8))) -//ust// goto memcpy_fallback; -//ust// *(u64 *)dest = *(const u64 *)src; -//ust// break; -//ust// #endif -//ust// default: -//ust// goto memcpy_fallback; -//ust// } -//ust// return; -//ust// memcpy_fallback: -//ust// memcpy(dest, src, len); -//ust// } -//ust// #endif - -static inline int ltt_relay_write(struct rchan_buf *buf, size_t offset, - const void *src, size_t len) -{ -//ust// struct buf_page *page; -//ust// ssize_t pagecpy; -//ust// -//ust// offset &= buf->chan->alloc_size - 1; -//ust// page = buf->wpage; -//ust// -//ust// page = ltt_relay_cache_page(buf, &buf->wpage, page, offset); -//ust// pagecpy = min_t(size_t, len, PAGE_SIZE - (offset & ~PAGE_MASK)); -//ust// ltt_relay_do_copy(page_address(page->page) -//ust// + (offset & ~PAGE_MASK), src, pagecpy); -//ust// -//ust// if (unlikely(len != pagecpy)) -//ust// _ltt_relay_write(buf, offset, src, len, page, pagecpy); -//ust// return len; - - size_t cpy; - size_t buf_offset = BUFFER_OFFSET(offset, buf->chan); - - assert(buf_offset < buf->chan->subbuf_size*buf->chan->n_subbufs); - - cpy = min_t(size_t, len, buf->buf_size - buf_offset); - ltt_relay_do_copy(buf->buf_data + buf_offset, src, cpy); - - if (unlikely(len != cpy)) - _ltt_relay_write(buf, buf_offset, src, len, cpy); - return len; -} - -/* - * CONFIG_LTT_RELAY kernel API, ltt/ltt-relay-alloc.c - */ - -extern struct rchan *ltt_relay_open(const char *base_filename, - struct dentry *parent, - size_t subbuf_size, - size_t n_subbufs, - void *private_data); -extern void ltt_relay_close(struct rchan *chan); - -/* - * exported ltt_relay file operations, ltt/ltt-relay-alloc.c - */ -extern const struct file_operations ltt_relay_file_operations; - - -/* LTTng lockless logging buffer info */ -struct ltt_channel_buf_struct { - /* First 32 bytes cache-hot cacheline */ - local_t offset; /* Current offset in the buffer */ - local_t *commit_count; /* Commit count per sub-buffer */ - atomic_long_t consumed; /* - * Current offset in the buffer - * standard atomic access (shared) - */ - unsigned long last_tsc; /* - * Last timestamp written in the buffer. - */ - /* End of first 32 bytes cacheline */ -//ust// #ifdef CONFIG_LTT_VMCORE -//ust// local_t *commit_seq; /* Consecutive commits */ -//ust// #endif - atomic_long_t active_readers; /* - * Active readers count - * standard atomic access (shared) - */ - local_t events_lost; - local_t corrupted_subbuffers; -//ust// spinlock_t full_lock; /* -//ust// * buffer full condition spinlock, only -//ust// * for userspace tracing blocking mode -//ust// * synchronization with reader. -//ust// */ -//ust// wait_queue_head_t write_wait; /* -//ust// * Wait queue for blocking user space -//ust// * writers -//ust// */ -//ust// atomic_t wakeup_readers; /* Boolean : wakeup readers waiting ? */ - /* one byte is written to this pipe when data is available, in order - to wake the consumer */ - /* portability: Single byte writes must be as quick as possible. The kernel-side - buffer must be large enough so the writer doesn't block. From the pipe(7) - man page: Since linux 2.6.11, the pipe capacity is 65536 bytes. */ - int data_ready_fd_write; - /* the reading end of the pipe */ - int data_ready_fd_read; - - /* commit count per subbuffer; must be at end of struct */ - local_t commit_seq[0] ____cacheline_aligned; -} ____cacheline_aligned; - -extern int ltt_do_get_subbuf(struct rchan_buf *buf, struct ltt_channel_buf_struct *ltt_buf, long *pconsumed_old); - -extern int ltt_do_put_subbuf(struct rchan_buf *buf, struct ltt_channel_buf_struct *ltt_buf, u32 uconsumed_old); - -extern void init_ustrelay_transport(void); - -/*static*/ /* inline */ notrace void ltt_commit_slot( - struct ltt_channel_struct *ltt_channel, - void **transport_data, long buf_offset, - size_t data_size, size_t slot_size); - -#endif /* _LINUX_LTT_RELAY_H */ diff --git a/libust/serialize.c b/libust/serialize.c index b1859ed..d603815 100644 --- a/libust/serialize.c +++ b/libust/serialize.c @@ -25,10 +25,6 @@ */ #include -//ust// #include -//ust// #include -//ust// #include -//ust// #include #include #include #include @@ -38,7 +34,7 @@ #include #include -#include "relay.h" +#include "buffers.h" #include "tracer.h" //#include "list.h" #include "usterr.h" @@ -337,7 +333,7 @@ parse_end: return fmt; } -static inline size_t serialize_trace_data(struct rchan_buf *buf, +static inline size_t serialize_trace_data(struct ust_buffer *buf, size_t buf_offset, char trace_size, enum ltt_type trace_type, char c_size, enum ltt_type c_type, @@ -402,7 +398,7 @@ static inline size_t serialize_trace_data(struct rchan_buf *buf, tmp.v_string.s = ""; tmp.v_string.len = strlen(tmp.v_string.s)+1; if (buf) - ltt_relay_write(buf, buf_offset, tmp.v_string.s, + ust_buffers_write(buf, buf_offset, tmp.v_string.s, tmp.v_string.len); buf_offset += tmp.v_string.len; goto copydone; @@ -430,31 +426,31 @@ static inline size_t serialize_trace_data(struct rchan_buf *buf, switch (trace_size) { case 1: if (c_size == 8) - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (uint8_t[]){ (uint8_t)tmp.v_uint64 }, sizeof(uint8_t)); else - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (uint8_t[]){ (uint8_t)tmp.v_ulong }, sizeof(uint8_t)); break; case 2: if (c_size == 8) - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (uint16_t[]){ (uint16_t)tmp.v_uint64 }, sizeof(uint16_t)); else - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (uint16_t[]){ (uint16_t)tmp.v_ulong }, sizeof(uint16_t)); break; case 4: if (c_size == 8) - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (uint32_t[]){ (uint32_t)tmp.v_uint64 }, sizeof(uint32_t)); else - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (uint32_t[]){ (uint32_t)tmp.v_ulong }, sizeof(uint32_t)); break; @@ -463,7 +459,7 @@ static inline size_t serialize_trace_data(struct rchan_buf *buf, * c_size cannot be other than 8 here because * trace_size > 4. */ - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (uint64_t[]){ (uint64_t)tmp.v_uint64 }, sizeof(uint64_t)); break; @@ -480,12 +476,12 @@ static inline size_t serialize_trace_data(struct rchan_buf *buf, if (buf) { switch (trace_type) { case LTT_TYPE_SIGNED_INT: - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (int64_t[]){ (int64_t)tmp.v_ulong }, sizeof(int64_t)); break; case LTT_TYPE_UNSIGNED_INT: - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (uint64_t[]){ (uint64_t)tmp.v_ulong }, sizeof(uint64_t)); break; @@ -587,7 +583,7 @@ int serialize_to_text(char *outbuf, int bufsize, const char *fmt, va_list ap) return result; } -notrace size_t ltt_serialize_data(struct rchan_buf *buf, size_t buf_offset, +notrace size_t ltt_serialize_data(struct ust_buffer *buf, size_t buf_offset, struct ltt_serialize_closure *closure, void *serialize_private, int *largest_align, const char *fmt, va_list *args) @@ -657,7 +653,7 @@ static notrace size_t ltt_get_data_size(struct ltt_serialize_closure *closure, } static notrace -void ltt_write_event_data(struct rchan_buf *buf, size_t buf_offset, +void ltt_write_event_data(struct ust_buffer *buf, size_t buf_offset, struct ltt_serialize_closure *closure, void *serialize_private, int largest_align, const char *fmt, va_list *args) @@ -678,9 +674,9 @@ notrace void ltt_vtrace(const struct marker *mdata, void *probe_data, uint16_t eID; size_t data_size, slot_size; unsigned int chan_index; - struct ltt_channel_struct *channel; + struct ust_channel *channel; struct ltt_trace_struct *trace, *dest_trace = NULL; - struct rchan_buf *buf; + struct ust_buffer *buf; void *transport_data; u64 tsc; long buf_offset; @@ -765,10 +761,10 @@ notrace void ltt_vtrace(const struct marker *mdata, void *probe_data, va_copy(args_copy, *args); /* FIXME : could probably encapsulate transport better. */ //ust// buf = ((struct rchan *)channel->trans_channel_data)->buf[cpu]; - buf = ((struct rchan *)channel->trans_channel_data)->buf; + buf = channel->buf; /* Out-of-order write : header and data */ buf_offset = ltt_write_event_header(trace, - channel, buf, buf_offset, + buf, buf_offset, eID, data_size, tsc, rflags); ltt_write_event_data(buf, buf_offset, &closure, serialize_private, diff --git a/libust/tracectl.c b/libust/tracectl.c index e28b315..80d09ae 100644 --- a/libust/tracectl.c +++ b/libust/tracectl.c @@ -33,7 +33,7 @@ #include "tracer.h" #include "usterr.h" #include "ustcomm.h" -#include "relay.h" /* FIXME: remove */ +#include "buffers.h" /* FIXME: remove */ #include "marker-control.h" //#define USE_CLONE @@ -87,9 +87,8 @@ struct blocked_consumer { struct ustcomm_server server; struct ustcomm_source src; - /* args to ltt_do_get_subbuf */ - struct rchan_buf *rbuf; - struct ltt_channel_buf_struct *lttbuf; + /* args to ust_buffers_do_get_subbuf */ + struct ust_buffer *buf; struct list_head list; }; @@ -250,13 +249,13 @@ void process_blocked_consumers(void) continue; } - result = ltt_do_get_subbuf(bc->rbuf, bc->lttbuf, &consumed_old); + result = ust_buffers_do_get_subbuf(bc->buf, &consumed_old); if(result == -EAGAIN) { WARN("missed buffer?"); continue; } else if(result < 0) { - DBG("ltt_do_get_subbuf: error: %s", strerror(-result)); + DBG("ust_buffers_do_get_subbuf: error: %s", strerror(-result)); } asprintf(&reply, "%s %ld", "OK", consumed_old); result = ustcomm_send_reply(&bc->server, reply, &bc->src); @@ -423,16 +422,15 @@ void *listener_main(void *p) } for(i=0; inr_channels; i++) { - struct rchan *rchan = trace->channels[i].trans_channel_data; - struct rchan_buf *rbuf = rchan->buf; - struct ltt_channel_struct *ltt_channel = (struct ltt_channel_struct *)rchan->private_data; + struct ust_channel *channel = &trace->channels[i]; + struct ust_buffer *buf = channel->buf; if(!strcmp(trace->channels[i].channel_name, channel_name)) { char *reply; - DBG("the shmid for the requested channel is %d", rbuf->shmid); - DBG("the shmid for its buffer structure is %d", ltt_channel->buf_shmid); - asprintf(&reply, "%d %d", rbuf->shmid, ltt_channel->buf_shmid); + DBG("the shmid for the requested channel is %d", buf->shmid); + DBG("the shmid for its buffer structure is %d", channel->buf_shmid); + asprintf(&reply, "%d %d", buf->shmid, channel->buf_shmid); result = ustcomm_send_reply(&ustcomm_app.server, reply, &src); if(result) { @@ -472,13 +470,13 @@ void *listener_main(void *p) } for(i=0; inr_channels; i++) { - struct rchan *rchan = trace->channels[i].trans_channel_data; + struct ust_channel *channel = &trace->channels[i]; if(!strcmp(trace->channels[i].channel_name, channel_name)) { char *reply; - DBG("the n_subbufs for the requested channel is %zd", rchan->n_subbufs); - asprintf(&reply, "%zd", rchan->n_subbufs); + DBG("the n_subbufs for the requested channel is %d", channel->subbuf_cnt); + asprintf(&reply, "%d", channel->subbuf_cnt); result = ustcomm_send_reply(&ustcomm_app.server, reply, &src); if(result) { @@ -516,13 +514,13 @@ void *listener_main(void *p) } for(i=0; inr_channels; i++) { - struct rchan *rchan = trace->channels[i].trans_channel_data; + struct ust_channel *channel = &trace->channels[i]; if(!strcmp(trace->channels[i].channel_name, channel_name)) { char *reply; - DBG("the subbuf_size for the requested channel is %zd", rchan->subbuf_size); - asprintf(&reply, "%zd", rchan->subbuf_size); + DBG("the subbuf_size for the requested channel is %zd", channel->subbuf_size); + asprintf(&reply, "%zd", channel->subbuf_size); result = ustcomm_send_reply(&ustcomm_app.server, reply, &src); if(result) { @@ -567,11 +565,10 @@ void *listener_main(void *p) } for(i=0; inr_channels; i++) { - struct rchan *rchan = trace->channels[i].trans_channel_data; + struct ust_channel *channel = &trace->channels[i]; if(!strcmp(trace->channels[i].channel_name, channel_name)) { - struct rchan_buf *rbuf = rchan->buf; - struct ltt_channel_buf_struct *lttbuf = trace->channels[i].buf; + struct ust_buffer *buf = channel->buf; struct blocked_consumer *bc; bc = (struct blocked_consumer *) malloc(sizeof(struct blocked_consumer)); @@ -580,9 +577,8 @@ void *listener_main(void *p) goto next_cmd; } bc->fd_consumer = src.fd; - bc->fd_producer = lttbuf->data_ready_fd_read; - bc->rbuf = rbuf; - bc->lttbuf = lttbuf; + bc->fd_producer = buf->data_ready_fd_read; + bc->buf = buf; bc->src = src; bc->server = ustcomm_app.server; @@ -630,21 +626,20 @@ void *listener_main(void *p) } for(i=0; inr_channels; i++) { - struct rchan *rchan = trace->channels[i].trans_channel_data; + struct ust_channel *channel = &trace->channels[i]; if(!strcmp(trace->channels[i].channel_name, channel_name)) { - struct rchan_buf *rbuf = rchan->buf; - struct ltt_channel_buf_struct *lttbuf = trace->channels[i].buf; + struct ust_buffer *buf = channel->buf; char *reply; long consumed_old=0; - result = ltt_do_put_subbuf(rbuf, lttbuf, consumed_old); + result = ust_buffers_do_put_subbuf(buf, consumed_old); if(result < 0) { - WARN("ltt_do_put_subbuf: error (subbuf=%s)", channel_name); + WARN("ust_buffers_do_put_subbuf: error (subbuf=%s)", channel_name); asprintf(&reply, "%s", "ERROR"); } else { - DBG("ltt_do_put_subbuf: success (subbuf=%s)", channel_name); + DBG("ust_buffers_do_put_subbuf: success (subbuf=%s)", channel_name); asprintf(&reply, "%s", "OK"); } diff --git a/libust/tracer.c b/libust/tracer.c index a3ace72..e3538e0 100644 --- a/libust/tracer.c +++ b/libust/tracer.c @@ -52,6 +52,7 @@ //ust// #include //ust// #include //ust// #include +#include #include #include @@ -295,7 +296,7 @@ void notrace ltt_write_trace_header(struct ltt_trace_struct *trace, static void trace_async_wakeup(struct ltt_trace_struct *trace) { int i; - struct ltt_channel_struct *chan; + struct ust_channel *chan; /* Must check each channel for pending read wakeup */ for (i = 0; i < trace->nr_channels; i++) { @@ -737,7 +738,6 @@ int ltt_trace_alloc(const char *trace_name) subbuf_cnt = trace->channels[chan].subbuf_cnt; prepare_chan_size_num(&subbuf_size, &subbuf_cnt); err = trace->ops->create_channel(trace_name, trace, - trace->dentry.trace_root, channel_name, &trace->channels[chan], subbuf_size, @@ -846,7 +846,7 @@ traces_error: static void __ltt_trace_destroy(struct ltt_trace_struct *trace) { int i; - struct ltt_channel_struct *chan; + struct ust_channel *chan; for (i = 0; i < trace->nr_channels; i++) { chan = &trace->channels[i]; diff --git a/libust/tracer.h b/libust/tracer.h index 502cdcc..58aae58 100644 --- a/libust/tracer.h +++ b/libust/tracer.h @@ -28,8 +28,7 @@ #include //#include "list.h" #include -#include "buffer.h" -#include "relay.h" +#include "buffers.h" #include "channels.h" #include "tracercore.h" #include @@ -57,7 +56,7 @@ struct ltt_serialize_closure; struct ltt_probe_private_data; /* Serialization callback '%k' */ -typedef size_t (*ltt_serialize_cb)(struct rchan_buf *buf, size_t buf_offset, +typedef size_t (*ltt_serialize_cb)(struct ust_buffer *buf, size_t buf_offset, struct ltt_serialize_closure *closure, void *serialize_private, int *largest_align, const char *fmt, va_list *args); @@ -68,7 +67,7 @@ struct ltt_serialize_closure { unsigned int cb_idx; }; -extern size_t ltt_serialize_data(struct rchan_buf *buf, size_t buf_offset, +extern size_t ltt_serialize_data(struct ust_buffer *buf, size_t buf_offset, struct ltt_serialize_closure *closure, void *serialize_private, int *largest_align, const char *fmt, va_list *args); @@ -143,7 +142,7 @@ struct user_dbg_data { struct ltt_trace_ops { /* First 32 bytes cache-hot cacheline */ int (*reserve_slot) (struct ltt_trace_struct *trace, - struct ltt_channel_struct *channel, + struct ust_channel *channel, void **transport_data, size_t data_size, size_t *slot_size, long *buf_offset, u64 *tsc, unsigned int *rflags, @@ -151,24 +150,24 @@ struct ltt_trace_ops { //ust// void (*commit_slot) (struct ltt_channel_struct *channel, //ust// void **transport_data, long buf_offset, //ust// size_t slot_size); - void (*wakeup_channel) (struct ltt_channel_struct *ltt_channel); + void (*wakeup_channel) (struct ust_channel *channel); int (*user_blocking) (struct ltt_trace_struct *trace, unsigned int index, size_t data_size, struct user_dbg_data *dbg); - /* End of first 32 bytes cacheline */ - int (*create_dirs) (struct ltt_trace_struct *new_trace); - void (*remove_dirs) (struct ltt_trace_struct *new_trace); - int (*create_channel) (const char *trace_name, - struct ltt_trace_struct *trace, - struct dentry *dir, const char *channel_name, - struct ltt_channel_struct *ltt_chan, - unsigned int subbuf_size, - unsigned int n_subbufs, int overwrite); - void (*finish_channel) (struct ltt_channel_struct *channel); - void (*remove_channel) (struct ltt_channel_struct *channel); - void (*user_errors) (struct ltt_trace_struct *trace, - unsigned int index, size_t data_size, - struct user_dbg_data *dbg); + /* End of first 32 bytes cacheline */ + int (*create_dirs) (struct ltt_trace_struct *new_trace); + void (*remove_dirs) (struct ltt_trace_struct *new_trace); + int (*create_channel) (const char *trace_name, + struct ltt_trace_struct *trace, + const char *channel_name, + struct ust_channel *channel, + unsigned int subbuf_size, + unsigned int n_subbufs, int overwrite); + void (*finish_channel) (struct ust_channel *channel); + void (*remove_channel) (struct ust_channel *channel); + void (*user_errors) (struct ltt_trace_struct *trace, + unsigned int index, size_t data_size, + struct user_dbg_data *dbg); } ____cacheline_aligned; struct ltt_transport { @@ -190,7 +189,7 @@ struct ltt_trace_struct { struct ltt_trace_ops *ops; int active; /* Second 32 bytes cache-hot cacheline */ - struct ltt_channel_struct *channels; + struct ust_channel *channels; unsigned int nr_channels; u32 freq_scale; u64 start_freq; @@ -299,7 +298,7 @@ static inline size_t ltt_subbuffer_header_size(void) } /* - * ltt_get_header_size + * ust_get_header_size * * Calculate alignment offset to 32-bits. This is the alignment offset of the * event header. @@ -317,8 +316,8 @@ static inline size_t ltt_subbuffer_header_size(void) * The payload must itself determine its own alignment from the biggest type it * contains. * */ -static inline unsigned char ltt_get_header_size( - struct ltt_channel_struct *channel, +static inline unsigned char ust_get_header_size( + struct ust_channel *channel, size_t offset, size_t data_size, size_t *before_hdr_pad, @@ -370,8 +369,7 @@ static inline unsigned char ltt_get_header_size( * returns : offset where the event data must be written. */ static inline size_t ltt_write_event_header(struct ltt_trace_struct *trace, - struct ltt_channel_struct *channel, - struct rchan_buf *buf, long buf_offset, + struct ust_buffer *buf, long buf_offset, u16 eID, size_t event_size, u64 tsc, unsigned int rflags) { @@ -393,44 +391,44 @@ static inline size_t ltt_write_event_header(struct ltt_trace_struct *trace, break; } header.id_time |= (u32)tsc & LTT_TSC_MASK; - ltt_relay_write(buf, buf_offset, &header, sizeof(header)); + ust_buffers_write(buf, buf_offset, &header, sizeof(header)); buf_offset += sizeof(header); switch (rflags) { case LTT_RFLAG_ID_SIZE_TSC: small_size = min_t(size_t, event_size, 0xFFFFU); - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (u16[]){ (u16)eID }, sizeof(u16)); buf_offset += sizeof(u16); - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (u16[]){ (u16)small_size }, sizeof(u16)); buf_offset += sizeof(u16); if (small_size == 0xFFFFU) { - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (u32[]){ (u32)event_size }, sizeof(u32)); buf_offset += sizeof(u32); } buf_offset += ltt_align(buf_offset, sizeof(u64)); - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (u64[]){ (u64)tsc }, sizeof(u64)); buf_offset += sizeof(u64); break; case LTT_RFLAG_ID_SIZE: small_size = min_t(size_t, event_size, 0xFFFFU); - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (u16[]){ (u16)eID }, sizeof(u16)); buf_offset += sizeof(u16); - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (u16[]){ (u16)small_size }, sizeof(u16)); buf_offset += sizeof(u16); if (small_size == 0xFFFFU) { - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (u32[]){ (u32)event_size }, sizeof(u32)); buf_offset += sizeof(u32); } break; case LTT_RFLAG_ID: - ltt_relay_write(buf, buf_offset, + ust_buffers_write(buf, buf_offset, (u16[]){ (u16)eID }, sizeof(u16)); buf_offset += sizeof(u16); break; @@ -465,7 +463,7 @@ static inline size_t ltt_write_event_header(struct ltt_trace_struct *trace, */ static inline int ltt_reserve_slot( struct ltt_trace_struct *trace, - struct ltt_channel_struct *channel, + struct ust_channel *channel, void **transport_data, size_t data_size, size_t *slot_size, @@ -598,7 +596,7 @@ extern struct dentry *get_filter_root(void); extern void ltt_write_trace_header(struct ltt_trace_struct *trace, struct ltt_subbuffer_header *header); -extern void ltt_buffer_destroy(struct ltt_channel_struct *ltt_chan); +extern void ltt_buffer_destroy(struct ust_channel *ltt_chan); extern void ltt_core_register(int (*function)(u8, void *)); diff --git a/libustcmd/ustcmd.c b/libustcmd/ustcmd.c index 49b76f5..d573a7f 100644 --- a/libustcmd/ustcmd.c +++ b/libustcmd/ustcmd.c @@ -111,7 +111,7 @@ int ustcmd_destroy_trace(pid_t pid) { int result; - result = ustcmd_send_cmd("destroy", pid, NULL); + result = ustcmd_send_cmd("trace_destroy", pid, NULL); if (result) { return USTCMD_ERR_GEN; } diff --git a/tests/hello/Makefile.am b/tests/hello/Makefile.am index aa92ee8..27ff78d 100644 --- a/tests/hello/Makefile.am +++ b/tests/hello/Makefile.am @@ -1,4 +1,4 @@ -AM_CPPFLAGS = -I$(top_srcdir)/include +AM_CPPFLAGS = -I$(top_srcdir)/include -I$(top_srcdir)/libust noinst_PROGRAMS = hello hello_SOURCES = hello.c tp.c tp.h diff --git a/tests/hello/hello.c b/tests/hello/hello.c index 4463a89..561d92e 100644 --- a/tests/hello/hello.c +++ b/tests/hello/hello.c @@ -10,7 +10,7 @@ #include #include "usterr.h" #include "tp.h" - +#include "tracer.h" void inthandler(int sig) { diff --git a/ustd/lowlevel.c b/ustd/lowlevel.c index 6a91acc..48bd580 100644 --- a/ustd/lowlevel.c +++ b/ustd/lowlevel.c @@ -27,10 +27,10 @@ void finish_consuming_dead_subbuffer(struct buffer_info *buf) { - struct ltt_channel_buf_struct *ltt_buf = buf->bufstruct_mem; + struct ust_buffer *ustbuf = buf->bufstruct_mem; - long write_offset = local_read(<t_buf->offset); - long consumed_offset = atomic_long_read(<t_buf->consumed); + long write_offset = local_read(&ustbuf->offset); + long consumed_offset = atomic_long_read(&ustbuf->consumed); long i_subbuf; @@ -59,7 +59,7 @@ void finish_consuming_dead_subbuffer(struct buffer_info *buf) void *tmp; /* commit_seq is the offset in the buffer of the end of the last sequential commit. * Bytes beyond this limit cannot be recovered. This is a free-running counter. */ - long commit_seq = local_read(<t_buf->commit_seq[i_subbuf]); + long commit_seq = local_read(&ustbuf->commit_seq[i_subbuf]); unsigned long valid_length = buf->subbuf_size; long n_subbufs_order = get_count_order(buf->n_subbufs); diff --git a/ustd/ustd.c b/ustd/ustd.c index 5a45695..26f87a2 100644 --- a/ustd/ustd.c +++ b/ustd/ustd.c @@ -698,7 +698,6 @@ int start_ustd_daemon() } else { char buf; - FILE *pidfp; result = read(fd[0], &buf, 1); if(result == -1) {