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6cb06a8cda
Now that filtered and unfiltered output can be treated identically, we can unify the printf family of functions. This is done under the name "gdb_printf". Most of this patch was written by script.
485 lines
13 KiB
C
485 lines
13 KiB
C
/* Trace file support in GDB.
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Copyright (C) 1997-2022 Free Software Foundation, Inc.
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This file is part of GDB.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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#include "defs.h"
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#include "tracefile.h"
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#include "tracectf.h"
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#include "exec.h"
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#include "regcache.h"
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#include "gdbsupport/byte-vector.h"
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#include "gdbarch.h"
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#include "gdbsupport/buildargv.h"
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/* Helper macros. */
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#define TRACE_WRITE_R_BLOCK(writer, buf, size) \
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writer->ops->frame_ops->write_r_block ((writer), (buf), (size))
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#define TRACE_WRITE_M_BLOCK_HEADER(writer, addr, size) \
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writer->ops->frame_ops->write_m_block_header ((writer), (addr), \
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(size))
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#define TRACE_WRITE_M_BLOCK_MEMORY(writer, buf, size) \
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writer->ops->frame_ops->write_m_block_memory ((writer), (buf), \
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(size))
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#define TRACE_WRITE_V_BLOCK(writer, num, val) \
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writer->ops->frame_ops->write_v_block ((writer), (num), (val))
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/* A unique pointer policy class for trace_file_writer. */
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struct trace_file_writer_deleter
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{
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void operator() (struct trace_file_writer *writer)
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{
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writer->ops->dtor (writer);
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xfree (writer);
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}
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};
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/* A unique_ptr specialization for trace_file_writer. */
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typedef std::unique_ptr<trace_file_writer, trace_file_writer_deleter>
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trace_file_writer_up;
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/* Save tracepoint data to file named FILENAME through WRITER. WRITER
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determines the trace file format. If TARGET_DOES_SAVE is non-zero,
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the save is performed on the target, otherwise GDB obtains all trace
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data and saves it locally. */
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static void
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trace_save (const char *filename, struct trace_file_writer *writer,
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int target_does_save)
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{
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struct trace_status *ts = current_trace_status ();
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struct uploaded_tp *uploaded_tps = NULL, *utp;
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struct uploaded_tsv *uploaded_tsvs = NULL, *utsv;
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ULONGEST offset = 0;
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#define MAX_TRACE_UPLOAD 2000
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gdb::byte_vector buf (std::max (MAX_TRACE_UPLOAD, trace_regblock_size));
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enum bfd_endian byte_order = gdbarch_byte_order (target_gdbarch ());
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/* If the target is to save the data to a file on its own, then just
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send the command and be done with it. */
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if (target_does_save)
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{
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if (!writer->ops->target_save (writer, filename))
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error (_("Target failed to save trace data to '%s'."),
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filename);
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return;
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}
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/* Get the trace status first before opening the file, so if the
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target is losing, we can get out without touching files. Since
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we're just calling this for side effects, we ignore the
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result. */
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target_get_trace_status (ts);
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writer->ops->start (writer, filename);
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writer->ops->write_header (writer);
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/* Write descriptive info. */
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/* Write out the size of a register block. */
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writer->ops->write_regblock_type (writer, trace_regblock_size);
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/* Write out the target description info. */
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writer->ops->write_tdesc (writer);
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/* Write out status of the tracing run (aka "tstatus" info). */
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writer->ops->write_status (writer, ts);
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/* Note that we want to upload tracepoints and save those, rather
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than simply writing out the local ones, because the user may have
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changed tracepoints in GDB in preparation for a future tracing
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run, or maybe just mass-deleted all types of breakpoints as part
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of cleaning up. So as not to contaminate the session, leave the
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data in its uploaded form, don't make into real tracepoints. */
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/* Get trace state variables first, they may be checked when parsing
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uploaded commands. */
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target_upload_trace_state_variables (&uploaded_tsvs);
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for (utsv = uploaded_tsvs; utsv; utsv = utsv->next)
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writer->ops->write_uploaded_tsv (writer, utsv);
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free_uploaded_tsvs (&uploaded_tsvs);
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target_upload_tracepoints (&uploaded_tps);
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for (utp = uploaded_tps; utp; utp = utp->next)
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target_get_tracepoint_status (NULL, utp);
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for (utp = uploaded_tps; utp; utp = utp->next)
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writer->ops->write_uploaded_tp (writer, utp);
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free_uploaded_tps (&uploaded_tps);
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/* Mark the end of the definition section. */
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writer->ops->write_definition_end (writer);
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/* Get and write the trace data proper. */
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while (1)
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{
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LONGEST gotten = 0;
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/* The writer supports writing the contents of trace buffer
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directly to trace file. Don't parse the contents of trace
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buffer. */
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if (writer->ops->write_trace_buffer != NULL)
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{
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/* We ask for big blocks, in the hopes of efficiency, but
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will take less if the target has packet size limitations
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or some such. */
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gotten = target_get_raw_trace_data (buf.data (), offset,
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MAX_TRACE_UPLOAD);
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if (gotten < 0)
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error (_("Failure to get requested trace buffer data"));
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/* No more data is forthcoming, we're done. */
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if (gotten == 0)
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break;
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writer->ops->write_trace_buffer (writer, buf.data (), gotten);
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offset += gotten;
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}
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else
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{
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uint16_t tp_num;
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uint32_t tf_size;
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/* Parse the trace buffers according to how data are stored
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in trace buffer in GDBserver. */
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gotten = target_get_raw_trace_data (buf.data (), offset, 6);
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if (gotten == 0)
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break;
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/* Read the first six bytes in, which is the tracepoint
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number and trace frame size. */
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tp_num = (uint16_t)
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extract_unsigned_integer (&((buf.data ())[0]), 2, byte_order);
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tf_size = (uint32_t)
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extract_unsigned_integer (&((buf.data ())[2]), 4, byte_order);
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writer->ops->frame_ops->start (writer, tp_num);
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gotten = 6;
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if (tf_size > 0)
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{
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unsigned int block;
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offset += 6;
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for (block = 0; block < tf_size; )
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{
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gdb_byte block_type;
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/* We'll fetch one block each time, in order to
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handle the extremely large 'M' block. We first
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fetch one byte to get the type of the block. */
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gotten = target_get_raw_trace_data (buf.data (),
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offset, 1);
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if (gotten < 1)
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error (_("Failure to get requested trace buffer data"));
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gotten = 1;
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block += 1;
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offset += 1;
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block_type = buf[0];
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switch (block_type)
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{
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case 'R':
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gotten
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= target_get_raw_trace_data (buf.data (), offset,
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trace_regblock_size);
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if (gotten < trace_regblock_size)
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error (_("Failure to get requested trace"
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" buffer data"));
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TRACE_WRITE_R_BLOCK (writer, buf.data (),
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trace_regblock_size);
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break;
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case 'M':
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{
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unsigned short mlen;
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ULONGEST addr;
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LONGEST t;
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int j;
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t = target_get_raw_trace_data (buf.data (),
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offset, 10);
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if (t < 10)
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error (_("Failure to get requested trace"
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" buffer data"));
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offset += 10;
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block += 10;
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gotten = 0;
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addr = (ULONGEST)
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extract_unsigned_integer (buf.data (), 8,
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byte_order);
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mlen = (unsigned short)
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extract_unsigned_integer (&((buf.data ())[8]), 2,
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byte_order);
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TRACE_WRITE_M_BLOCK_HEADER (writer, addr,
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mlen);
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/* The memory contents in 'M' block may be
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very large. Fetch the data from the target
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and write them into file one by one. */
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for (j = 0; j < mlen; )
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{
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unsigned int read_length;
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if (mlen - j > MAX_TRACE_UPLOAD)
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read_length = MAX_TRACE_UPLOAD;
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else
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read_length = mlen - j;
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t = target_get_raw_trace_data (buf.data (),
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offset + j,
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read_length);
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if (t < read_length)
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error (_("Failure to get requested"
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" trace buffer data"));
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TRACE_WRITE_M_BLOCK_MEMORY (writer,
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buf.data (),
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read_length);
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j += read_length;
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gotten += read_length;
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}
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break;
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}
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case 'V':
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{
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int vnum;
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LONGEST val;
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gotten
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= target_get_raw_trace_data (buf.data (),
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offset, 12);
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if (gotten < 12)
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error (_("Failure to get requested"
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" trace buffer data"));
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vnum = (int) extract_signed_integer (buf.data (),
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4,
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byte_order);
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val
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= extract_signed_integer (&((buf.data ())[4]),
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8, byte_order);
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TRACE_WRITE_V_BLOCK (writer, vnum, val);
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}
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break;
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default:
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error (_("Unknown block type '%c' (0x%x) in"
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" trace frame"),
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block_type, block_type);
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}
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block += gotten;
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offset += gotten;
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}
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}
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else
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offset += gotten;
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writer->ops->frame_ops->end (writer);
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}
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}
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writer->ops->end (writer);
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}
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static void
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tsave_command (const char *args, int from_tty)
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{
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int target_does_save = 0;
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char **argv;
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char *filename = NULL;
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int generate_ctf = 0;
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if (args == NULL)
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error_no_arg (_("file in which to save trace data"));
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gdb_argv built_argv (args);
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argv = built_argv.get ();
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for (; *argv; ++argv)
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{
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if (strcmp (*argv, "-r") == 0)
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target_does_save = 1;
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else if (strcmp (*argv, "-ctf") == 0)
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generate_ctf = 1;
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else if (**argv == '-')
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error (_("unknown option `%s'"), *argv);
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else
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filename = *argv;
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}
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if (!filename)
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error_no_arg (_("file in which to save trace data"));
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if (generate_ctf)
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trace_save_ctf (filename, target_does_save);
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else
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trace_save_tfile (filename, target_does_save);
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if (from_tty)
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gdb_printf (_("Trace data saved to %s '%s'.\n"),
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generate_ctf ? "directory" : "file", filename);
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}
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/* Save the trace data to file FILENAME of tfile format. */
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void
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trace_save_tfile (const char *filename, int target_does_save)
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{
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trace_file_writer_up writer (tfile_trace_file_writer_new ());
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trace_save (filename, writer.get (), target_does_save);
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}
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/* Save the trace data to dir DIRNAME of ctf format. */
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void
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trace_save_ctf (const char *dirname, int target_does_save)
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{
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trace_file_writer_up writer (ctf_trace_file_writer_new ());
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trace_save (dirname, writer.get (), target_does_save);
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}
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/* Fetch register data from tracefile, shared for both tfile and
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ctf. */
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void
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tracefile_fetch_registers (struct regcache *regcache, int regno)
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{
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struct gdbarch *gdbarch = regcache->arch ();
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struct tracepoint *tp = get_tracepoint (get_tracepoint_number ());
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int regn;
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/* We get here if no register data has been found. Mark registers
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as unavailable. */
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for (regn = 0; regn < gdbarch_num_regs (gdbarch); regn++)
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regcache->raw_supply (regn, NULL);
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/* We can often usefully guess that the PC is going to be the same
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as the address of the tracepoint. */
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if (tp == NULL || tp->loc == NULL)
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return;
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/* But don't try to guess if tracepoint is multi-location... */
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if (tp->loc->next)
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{
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warning (_("Tracepoint %d has multiple "
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"locations, cannot infer $pc"),
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tp->number);
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return;
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}
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/* ... or does while-stepping. */
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else if (tp->step_count > 0)
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{
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warning (_("Tracepoint %d does while-stepping, "
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"cannot infer $pc"),
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tp->number);
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return;
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}
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/* Guess what we can from the tracepoint location. */
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gdbarch_guess_tracepoint_registers (gdbarch, regcache,
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tp->loc->address);
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}
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/* This is the implementation of target_ops method to_has_all_memory. */
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bool
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tracefile_target::has_all_memory ()
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{
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return 1;
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}
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/* This is the implementation of target_ops method to_has_memory. */
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bool
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tracefile_target::has_memory ()
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{
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return 1;
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}
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/* This is the implementation of target_ops method to_has_stack.
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The target has a stack when GDB has already selected one trace
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frame. */
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bool
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tracefile_target::has_stack ()
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{
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return get_traceframe_number () != -1;
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}
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/* This is the implementation of target_ops method to_has_registers.
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The target has registers when GDB has already selected one trace
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frame. */
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bool
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tracefile_target::has_registers ()
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{
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return get_traceframe_number () != -1;
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}
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/* This is the implementation of target_ops method to_thread_alive.
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tracefile has one thread faked by GDB. */
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bool
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tracefile_target::thread_alive (ptid_t ptid)
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{
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return 1;
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}
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/* This is the implementation of target_ops method to_get_trace_status.
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The trace status for a file is that tracing can never be run. */
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int
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tracefile_target::get_trace_status (struct trace_status *ts)
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{
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/* Other bits of trace status were collected as part of opening the
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trace files, so nothing to do here. */
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return -1;
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}
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void _initialize_tracefile ();
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void
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_initialize_tracefile ()
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{
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add_com ("tsave", class_trace, tsave_command, _("\
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Save the trace data to a file.\n\
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Use the '-ctf' option to save the data to CTF format.\n\
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Use the '-r' option to direct the target to save directly to the file,\n\
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using its own filesystem."));
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}
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