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mirror of https://git.FreeBSD.org/src.git synced 2024-12-20 11:11:24 +00:00
freebsd/sbin/camcontrol/progress.c
Kenneth D. Merry 0e358df062 Revamp camcontrol(8) fwdownload support and add the opcodes subcommand.
The significant changes and bugs fixed here are:

1. Fixed a bug in the progress display code:

   When the user's filename is too big, or his terminal width is too
   small, the progress code could wind up using a negative number for
   the length of the "stars" that it uses to indicate progress.

   This negative value was assigned to an unsigned variable, resulting
   in a very large positive value.

   The result is that we wound up writing garbage from memory to the
   user's terminal.

   With an 80 column terminal, a file name length of more than 35
   characters would generate this problem.

   To address this, we now set a minimum progress bar length, and
   truncate the user's file name as needed.

   This has been tested with large filenames and small terminals, and
   at least produces reasonable results.  If the terminal is too
   narrow, the progress display takes up an additional line with each
   update, but this is more user friendly than writing garbage to the
   tty.

2. SATA drives connected via a SATA controller didn't have SCSI Inquiry
   data populated in struct cam_device.  This meant that the code in
   fw_get_vendor() in fwdownload.c would try to match a zero-length
   vendor ID, and so return the first entry in the vendor table.  (Which
   used to be HITACHI.)  Fixed by grabbing identify data, passing the
   identify buffer into fw_get_vendor(), and matching against the model
   name.

3. SATA drives connected via a SAS controller do have Inquiry data
   populated.  The table included a couple of entries -- "ATA ST" and
   "ATA HDS", intended to handle Seagate and Hitachi SATA drives attached
   via a SAS controller.  SCSI to ATA translation layers use a vendor
   ID of "ATA" (which is standard), and then the model name from the ATA
   identify data as the SCSI product name when they are returning data on
   SATA disks.  The cam_strmatch code will match the first part of the
   string (because the length it is given is the length of the vendor,
   "ATA"), and return 0 (i.e. a match).  So all SATA drives attached to
   a SAS controller would be programmed using the Seagate method
   (WRITE BUFFER mode 7) of SCSI firmware downloading.

4. Issue #2 above covered up a bug in fw_download_img() -- if the
   maximum packet size in the vendor table was 0, it tried to default
   to a packet size of 32K.  But then it didn't actually succeed in
   doing that, because it set the packet size to the value that was
   in the vendor table (0).  Now that we actually have ATA attached
   drives fall use the VENDOR_ATA case, we need a reasonable default
   packet size.  So this is fixed to properly set the default packet size.

5. Add support for downloading firmware to IBM LTO drives, and add a
   firmware file validation method to make sure that the firmware
   file matches the drive type.  IBM tape drives include a Load ID and
   RU name in their vendor-specific VPD page 0x3.  Those should match
   the IDs in the header of the firmware file to insure that the
   proper firmware file is loaded.

6. This also adds a new -q option to the camcontrol fwdownload
   subcommand to suppress informational output.  When -q is used in
   combination with -y, the firmware upgrade will happen without
   prompting and without output except if an error condition occurs.

7. Re-add support for printing out SCSI inquiry information when
   asking the user to confirm that they want to download firmware, and
   add printing of ATA Identify data if it is a SATA disk.  This was
   removed in r237281 when support for flashing ATA disks was added.

8. Add a new camcontrol(8) "opcodes" subcommand, and use the
   underlying code to get recommended timeout values for drive
   firmware downloads.

   Many SCSI devices support the REPORT SUPPORTED OPERATION CODES
   command, and some support the optional timeout descriptor that
   specifies nominal and recommended timeouts for the commands
   supported by the device.

   The new camcontrol opcodes subcommand allows displaying all
   opcodes supported by a drive, information about which fields
   in a SCSI CDB are actually used by a given SCSI device, and the
   nominal and recommended timeout values for each command.

   Since firmware downloads can take a long time in some devices, and
   the time varies greatly between different types of devices, take
   advantage of the infrastructure used by the camcontrol opcodes
   subcommand to determine the best timeout to use for the WRITE
   BUFFER command in SCSI device firmware downloads.

   If the device recommends a timeout, it is likely to be more
   accurate than the default 50 second timeout used by the firmware
   download code.  If the user specifies a timeout, it will override
   the default or device recommended timeout.  If the device doesn't
   support timeout descriptors, we fall back to the default.

9. Instead of downloading firmware to SATA drives behind a SAS controller
   using WRITE BUFFER, use the SCSI ATA PASS-THROUGH command to compose
   an ATA DOWNLOAD MICROCODE command and it to the drive.  The previous
   version of this code attempted to send a SCSI WRITE BUFFER command to
   SATA drives behind a SAS controller.  Although that is part of the
   SAT-3 spec, it doesn't work with the parameters used with LSI
   controllers at least.

10.Add a new mechanism for making common ATA passthrough and
   ATA-behind-SCSI passthrough commands.

   The existing camcontrol(8) ATA command mechanism checks the device
   type on every command executed.  That works fine for individual
   commands, but is cumbersome for things like a firmware download
   that send a number of commands.

   The fwdownload code detects the device type up front, and then
   sends the appropriate commands.

11.In simulation mode (-s), if the user specifies the -v flag, print out
   the SCSI CDB or ATA registers that would be sent to the drive.  This will
   aid in debugging any firmware download issues.

sbin/camcontrol/fwdownload.c:
	Add a device type to the fw_vendor structure, so that we can
	specify different download methods for different devices from the
	same vendor.  In this case, IBM hard drives (from when they
	still made hard drives) and tape drives.

	Add a tur_status field to the fw_vendor structure so that we can
	specify whether the drive to be upgraded should be ready, not
	ready, or whether it doesn't matter.  Add the corresponding
	capability in fw_download_img().

	Add comments describing each of the vendor table fields.

	Add HGST and SmrtStor to the supported SCSI vendors list.

	In fw_get_vendor(), look at ATA identify data if we have a SATA
	device to try to identify what the drive vendor is.

	Add IBM firmware file validation.  This gets VPD page 0x3, and
	compares the Load ID and RU name in the page to the values
	included in the header.  The validation code will refuse to load
	a firmware file if the values don't match.  This does allow the
	user to attempt a downgrade; whether or not it succeeds will
	likely depend on the drive settings.

	Add a -q option, and disable all informative output
	(progress bars, etc.) when this is enabled.

	Re-add the inquiry in the confirmation dialog so the user has
	a better idea of which device he is talking to.  Add support for
	displaying ATA identify data.

	Don't automatically disable confirmation in simulation (-s) mode.
	This allows the user to see the inquiry or identify data in the
	dialog, and see exactly what they would see when the command
	actually runs.  Also, in simulation mode, if the user specifies
	the -v flag, print out the SCSI CDB or ATA registers that would
	be sent to the drive.  This will aid in debugging any firmware
	download issues.

	Add a timeout field and timeout type to the firmware download
	vendor table.  This allows specifying a default timeout and allows
	specifying whether we should attempt to probe for a recommended
	timeout from the drive.

	Add a new fuction, fw_get_timeout(), that will determine
	which timeout to use for the WRITE BUFFER command.  If the
	user specifies a timeout, we always use that.  Otherwise,
	we will use the drive recommended timeout, if available,
	and fall back to the default when a drive recommended
	timeout isn't available.

	When we prompt the user, tell him what timeout we're going
	to use, and the source of the timeout.

	Revamp the way SATA devices are handled.

	In fwdownload(), use the new get_device_type() function to
	determine what kind of device we're talking to.

	Allow firmware downloads to any SATA device, but restrict
	SCSI downloads to known devices.  (The latter is not a
	change in behavior.)

	Break out the "ready" check from fw_download_img() into a
	new subfunction, fw_check_device_ready().  This sends the
	appropriate command to the device in question -- a TEST
	UNIT READY or an IDENTIFY.  The IDENTIFY for SATA devices
 	a SAT layer is done using the SCSI ATA PASS-THROUGH
	command.

	Use the new build_ata_cmd() function to build either a SCSI or
	ATA I/O CCB to issue the DOWNLOAD MICROCODE command to SATA
	devices.  build_ata_cmd() figures looks at the devtype argument
	and fills in the correct CCB type and CDB or ATA registers.

	Revamp the vendor table to remove the previous
	vendor-specific ATA entries and use a generic ATA vendor
	placeholder.  We currently use the same method for all ATA
	drives, although we may have to add vendor-specific
	behavior once we test this with more drives.

sbin/camcontrol/progress.c:
	In progress_draw(), make barlength a signed value so that
	we can easily detect a negative value.

	If barlength (the length of the progress bar) would wind up
	negative due to a small TTY width or a large filename,
	set the bar length to the new minimum (10 stars) and
	truncate the user's filename.  We will truncate it down to
	0 characters if necessary.

	Calculate a new prefix_len variable (user's filename length)
	and use it as the precision when printing the filename.

sbin/camcontrol/camcontrol.c:
	Implement a new camcontrol(8) subcommand, "opcodes".  The
	opcodes subcommand allows displaying the entire list of
	SCSI commands supported by a device, or details on an
	individual command.  In either case, it can display
	nominal and recommended timeout values.

	Add the scsiopcodes() function, which calls the new
	scsigetopcodes() function to fetch opcode data from a
	drive.

	Add two new functions, scsiprintoneopcode() and
	scsiprintopcodes(), which print information about one
	opcode or all opcodes, respectively.

	Remove the get_disk_type() function.  It is no longer used.

	Add a new function, dev_has_vpd_page(), that fetches the
	supported INQUIRY VPD list from a device and tells the
	caller whether the requested VPD page is available.

	Add a new function, get_device_type(), that returns a more
	precise device type than the old get_disk_type() function.
	The get_disk_type() function only distinguished between
	SCSI and ATA devices, and SATA devices behind a SCSI to ATA
	translation layer were considered to be "SCSI".

	get_device_type() offers a third type, CC_DT_ATA_BEHIND_SCSI.
	We need to know this to know whether to attempt to send ATA
	passthrough commands.  If the device has the ATA
	Information VPD page (0x89), then it is an ATA device
	behind a SCSI to ATA translation layer.

	Remove the type argument from the fwdownload() subcommand.

	Add a new function, build_ata_cmd(), that will take one set
	of common arguments and build either a SCSI or ATA I/O CCB,
	depending on the device type passed in.

sbin/camcontrol/camcontrol.h:
	Add a prototype for scsigetopcodes().

	Add a new enumeration, camcontrol_devtype.

	Add prototypes for dev_has_vpd_page(), get_device_type()
	and build_ata_cmd().

	Remove the type argument from the fwdownload() subcommand.

sbin/camcontrol/camcontrol.8
	Explain that the fwdownload subcommand will use the drive
	recommended timeout if available, and that the user can
	override the timeout.

	Document the new opcodes subcommand.

	Explain that we will attempt to download firmware to any
	SATA device.

	Document supported SCSI vendors, and models tested if known.

	Explain the commands used to download firmware for the
	three different drive and controller combinations.

	Document that the -v flag in simulation mode for the fwdownload
	subcommand will print out the SCSI CDBs or ATA registers that would
	be used.

sys/cam/scsi/scsi_all.h:
	Add new bit definitions for the one opcode descriptor for
	the REPORT SUPPORTED OPCODES command.

	Add a function prototype for scsi_report_supported_opcodes().

sys/cam/scsi/scsi_all.c:
	Add a new CDB building function, scsi_report_supported_opcodes().

Sponsored by:	Spectra Logic
MFC after:	1 week
2015-08-20 16:07:51 +00:00

206 lines
6.0 KiB
C

/* $NetBSD: progressbar.c,v 1.21 2009/04/12 10:18:52 lukem Exp $ */
/*-
* Copyright (c) 1997-2009 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by Luke Mewburn.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include <sys/types.h>
#include <sys/param.h>
#include <sys/ioctl.h>
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <termios.h>
#include <time.h>
#include <unistd.h>
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include "progress.h"
static const char * const suffixes[] = {
"", /* 2^0 (byte) */
"KiB", /* 2^10 Kibibyte */
"MiB", /* 2^20 Mebibyte */
"GiB", /* 2^30 Gibibyte */
"TiB", /* 2^40 Tebibyte */
"PiB", /* 2^50 Pebibyte */
"EiB", /* 2^60 Exbibyte */
};
#define NSUFFIXES (sizeof(suffixes) / sizeof(suffixes[0]))
#define SECSPERHOUR (60 * 60)
#define DEFAULT_TTYWIDTH 80
/* initialise progress meter structure */
int
progress_init(progress_t *prog, const char *prefix, uint64_t total)
{
struct winsize winsize;
int oerrno = errno;
(void) memset(prog, 0x0, sizeof(*prog));
prog->size = total;
prog->prefix = strdup(prefix);
prog->start = time(NULL);
if (ioctl(STDOUT_FILENO, TIOCGWINSZ, &winsize) != -1 &&
winsize.ws_col != 0) {
prog->ttywidth = winsize.ws_col;
} else {
prog->ttywidth = DEFAULT_TTYWIDTH;
}
errno = oerrno;
return 1;
}
/* update the values in the progress meter */
int
progress_update(progress_t *prog, uint64_t done)
{
prog->done = done;
prog->percent = (prog->done * 100) / prog->size;
prog->now = time(NULL);
prog->elapsed = prog->now - prog->start;
if (done == 0 || prog->elapsed == 0 || prog->done / prog->elapsed == 0) {
prog->eta = 0;
} else {
prog->eta = prog->size / (prog->done / prog->elapsed) - prog->elapsed;
}
return 1;
}
/* update the values in the progress meter */
int
progress_reset_size(progress_t *prog, uint64_t size)
{
prog->size = size;
return 1;
}
/* make it look pretty at the end - display done bytes (usually total) */
int
progress_complete(progress_t *prog, uint64_t done)
{
progress_update(prog, done);
progress_draw(prog);
printf("\n");
return 1;
}
/* draw the progress meter */
int
progress_draw(progress_t *prog)
{
#define BAROVERHEAD 45 /* non `*' portion of progress bar */
/*
* stars should contain at least
* sizeof(buf) - BAROVERHEAD entries
*/
#define MIN_BAR_LEN 10
static const char stars[] =
"*****************************************************************************"
"*****************************************************************************"
"*****************************************************************************";
unsigned bytesabbrev;
unsigned bpsabbrev;
int64_t secs;
uint64_t bytespersec;
uint64_t abbrevsize;
int64_t secsleft;
ssize_t barlength;
size_t starc;
char hours[12];
char buf[256];
int len;
int prefix_len;
prefix_len = strlen(prog->prefix);
barlength = MIN(sizeof(buf) - 1, (unsigned)prog->ttywidth) -
BAROVERHEAD - prefix_len;
if (barlength < MIN_BAR_LEN) {
int tmp_prefix_len;
/*
* In this case the TTY width is too small or the prefix is
* too large for a progress bar. We'll try decreasing the
* prefix length.
*/
barlength = MIN_BAR_LEN;
tmp_prefix_len = MIN(sizeof(buf) - 1,(unsigned)prog->ttywidth) -
BAROVERHEAD - MIN_BAR_LEN;
if (tmp_prefix_len > 0)
prefix_len = tmp_prefix_len;
else
prefix_len = 0;
}
starc = (barlength * prog->percent) / 100;
abbrevsize = prog->done;
for (bytesabbrev = 0; abbrevsize >= 100000 && bytesabbrev < NSUFFIXES; bytesabbrev++) {
abbrevsize >>= 10;
}
if (bytesabbrev == NSUFFIXES) {
bytesabbrev--;
}
bytespersec = 0;
if (prog->done > 0) {
bytespersec = prog->done;
if (prog->elapsed > 0) {
bytespersec /= prog->elapsed;
}
}
for (bpsabbrev = 1; bytespersec >= 1024000 && bpsabbrev < NSUFFIXES; bpsabbrev++) {
bytespersec >>= 10;
}
if (prog->done == 0 || prog->elapsed <= 0 || prog->done > prog->size) {
secsleft = 0;
} else {
secsleft = prog->eta;
}
if ((secs = secsleft / SECSPERHOUR) > 0) {
(void) snprintf(hours, sizeof(hours), "%2lld:", (long long)secs);
} else {
(void) snprintf(hours, sizeof(hours), " ");
}
secs = secsleft % SECSPERHOUR;
len = snprintf(buf, sizeof(buf),
"\r%.*s %3lld%% |%.*s%*s| %5lld %-3s %3lld.%02d %.2sB/s %s%02d:%02d ETA",
prefix_len, (prog->prefix) ? prog->prefix : "",
(long long)prog->percent,
(int)starc, stars, (int)(barlength - starc), "",
(long long)abbrevsize,
suffixes[bytesabbrev],
(long long)(bytespersec / 1024),
(int)((bytespersec % 1024) * 100 / 1024),
suffixes[bpsabbrev],
hours,
(int)secs / 60, (int)secs % 60);
return (int)write(STDOUT_FILENO, buf, len);
}