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-rw-r--r--REORG.TODO/elf/dl-profile.c596
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diff --git a/REORG.TODO/elf/dl-profile.c b/REORG.TODO/elf/dl-profile.c
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+++ b/REORG.TODO/elf/dl-profile.c
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+/* Profiling of shared libraries.
+ Copyright (C) 1997-2017 Free Software Foundation, Inc.
+ This file is part of the GNU C Library.
+ Contributed by Ulrich Drepper <drepper@cygnus.com>, 1997.
+ Based on the BSD mcount implementation.
+
+ The GNU C 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.
+
+ The GNU C 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 the GNU C Library; if not, see
+ <http://www.gnu.org/licenses/>. */
+
+#include <assert.h>
+#include <errno.h>
+#include <fcntl.h>
+#include <inttypes.h>
+#include <limits.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <unistd.h>
+#include <stdint.h>
+#include <ldsodefs.h>
+#include <sys/gmon.h>
+#include <sys/gmon_out.h>
+#include <sys/mman.h>
+#include <sys/param.h>
+#include <sys/stat.h>
+#include <atomic.h>
+
+/* The LD_PROFILE feature has to be implemented different to the
+ normal profiling using the gmon/ functions. The problem is that an
+ arbitrary amount of processes simulataneously can be run using
+ profiling and all write the results in the same file. To provide
+ this mechanism one could implement a complicated mechanism to merge
+ the content of two profiling runs or one could extend the file
+ format to allow more than one data set. For the second solution we
+ would have the problem that the file can grow in size beyond any
+ limit and both solutions have the problem that the concurrency of
+ writing the results is a big problem.
+
+ Another much simpler method is to use mmap to map the same file in
+ all using programs and modify the data in the mmap'ed area and so
+ also automatically on the disk. Using the MAP_SHARED option of
+ mmap(2) this can be done without big problems in more than one
+ file.
+
+ This approach is very different from the normal profiling. We have
+ to use the profiling data in exactly the way they are expected to
+ be written to disk. But the normal format used by gprof is not usable
+ to do this. It is optimized for size. It writes the tags as single
+ bytes but this means that the following 32/64 bit values are
+ unaligned.
+
+ Therefore we use a new format. This will look like this
+
+ 0 1 2 3 <- byte is 32 bit word
+ 0000 g m o n
+ 0004 *version* <- GMON_SHOBJ_VERSION
+ 0008 00 00 00 00
+ 000c 00 00 00 00
+ 0010 00 00 00 00
+
+ 0014 *tag* <- GMON_TAG_TIME_HIST
+ 0018 ?? ?? ?? ??
+ ?? ?? ?? ?? <- 32/64 bit LowPC
+ 0018+A ?? ?? ?? ??
+ ?? ?? ?? ?? <- 32/64 bit HighPC
+ 0018+2*A *histsize*
+ 001c+2*A *profrate*
+ 0020+2*A s e c o
+ 0024+2*A n d s \0
+ 0028+2*A \0 \0 \0 \0
+ 002c+2*A \0 \0 \0
+ 002f+2*A s
+
+ 0030+2*A ?? ?? ?? ?? <- Count data
+ ... ...
+ 0030+2*A+K ?? ?? ?? ??
+
+ 0030+2*A+K *tag* <- GMON_TAG_CG_ARC
+ 0034+2*A+K *lastused*
+ 0038+2*A+K ?? ?? ?? ??
+ ?? ?? ?? ?? <- FromPC#1
+ 0038+3*A+K ?? ?? ?? ??
+ ?? ?? ?? ?? <- ToPC#1
+ 0038+4*A+K ?? ?? ?? ?? <- Count#1
+ ... ... ...
+ 0038+(2*(CN-1)+2)*A+(CN-1)*4+K ?? ?? ?? ??
+ ?? ?? ?? ?? <- FromPC#CGN
+ 0038+(2*(CN-1)+3)*A+(CN-1)*4+K ?? ?? ?? ??
+ ?? ?? ?? ?? <- ToPC#CGN
+ 0038+(2*CN+2)*A+(CN-1)*4+K ?? ?? ?? ?? <- Count#CGN
+
+ We put (for now?) no basic block information in the file since this would
+ introduce rase conditions among all the processes who want to write them.
+
+ `K' is the number of count entries which is computed as
+
+ textsize / HISTFRACTION
+
+ `CG' in the above table is the number of call graph arcs. Normally,
+ the table is sparse and the profiling code writes out only the those
+ entries which are really used in the program run. But since we must
+ not extend this table (the profiling file) we'll keep them all here.
+ So CN can be executed in advance as
+
+ MINARCS <= textsize*(ARCDENSITY/100) <= MAXARCS
+
+ Now the remaining question is: how to build the data structures we can
+ work with from this data. We need the from set and must associate the
+ froms with all the associated tos. We will do this by constructing this
+ data structures at the program start. To do this we'll simply visit all
+ entries in the call graph table and add it to the appropriate list. */
+
+extern int __profile_frequency (void);
+libc_hidden_proto (__profile_frequency)
+
+/* We define a special type to address the elements of the arc table.
+ This is basically the `gmon_cg_arc_record' format but it includes
+ the room for the tag and it uses real types. */
+struct here_cg_arc_record
+ {
+ uintptr_t from_pc;
+ uintptr_t self_pc;
+ /* The count field is atomically incremented in _dl_mcount, which
+ requires it to be properly aligned for its type, and for this
+ alignment to be visible to the compiler. The amount of data
+ before an array of this structure is calculated as
+ expected_size in _dl_start_profile. Everything in that
+ calculation is a multiple of 4 bytes (in the case of
+ kcountsize, because it is derived from a subtraction of
+ page-aligned values, and the corresponding calculation in
+ __monstartup also ensures it is at least a multiple of the size
+ of u_long), so all copies of this field do in fact have the
+ appropriate alignment. */
+ uint32_t count __attribute__ ((aligned (__alignof__ (uint32_t))));
+ } __attribute__ ((packed));
+
+static struct here_cg_arc_record *data;
+
+/* Nonzero if profiling is under way. */
+static int running;
+
+/* This is the number of entry which have been incorporated in the toset. */
+static uint32_t narcs;
+/* This is a pointer to the object representing the number of entries
+ currently in the mmaped file. At no point of time this has to be the
+ same as NARCS. If it is equal all entries from the file are in our
+ lists. */
+static volatile uint32_t *narcsp;
+
+
+struct here_fromstruct
+ {
+ struct here_cg_arc_record volatile *here;
+ uint16_t link;
+ };
+
+static volatile uint16_t *tos;
+
+static struct here_fromstruct *froms;
+static uint32_t fromlimit;
+static volatile uint32_t fromidx;
+
+static uintptr_t lowpc;
+static size_t textsize;
+static unsigned int log_hashfraction;
+
+
+
+/* Set up profiling data to profile object desribed by MAP. The output
+ file is found (or created) in OUTPUT_DIR. */
+void
+internal_function
+_dl_start_profile (void)
+{
+ char *filename;
+ int fd;
+ struct stat64 st;
+ const ElfW(Phdr) *ph;
+ ElfW(Addr) mapstart = ~((ElfW(Addr)) 0);
+ ElfW(Addr) mapend = 0;
+ char *hist, *cp;
+ size_t idx;
+ size_t tossize;
+ size_t fromssize;
+ uintptr_t highpc;
+ uint16_t *kcount;
+ size_t kcountsize;
+ struct gmon_hdr *addr = NULL;
+ off_t expected_size;
+ /* See profil(2) where this is described. */
+ int s_scale;
+#define SCALE_1_TO_1 0x10000L
+ const char *errstr = NULL;
+
+ /* Compute the size of the sections which contain program code. */
+ for (ph = GL(dl_profile_map)->l_phdr;
+ ph < &GL(dl_profile_map)->l_phdr[GL(dl_profile_map)->l_phnum]; ++ph)
+ if (ph->p_type == PT_LOAD && (ph->p_flags & PF_X))
+ {
+ ElfW(Addr) start = (ph->p_vaddr & ~(GLRO(dl_pagesize) - 1));
+ ElfW(Addr) end = ((ph->p_vaddr + ph->p_memsz + GLRO(dl_pagesize) - 1)
+ & ~(GLRO(dl_pagesize) - 1));
+
+ if (start < mapstart)
+ mapstart = start;
+ if (end > mapend)
+ mapend = end;
+ }
+
+ /* Now we can compute the size of the profiling data. This is done
+ with the same formulars as in `monstartup' (see gmon.c). */
+ running = 0;
+ lowpc = ROUNDDOWN (mapstart + GL(dl_profile_map)->l_addr,
+ HISTFRACTION * sizeof (HISTCOUNTER));
+ highpc = ROUNDUP (mapend + GL(dl_profile_map)->l_addr,
+ HISTFRACTION * sizeof (HISTCOUNTER));
+ textsize = highpc - lowpc;
+ kcountsize = textsize / HISTFRACTION;
+ if ((HASHFRACTION & (HASHFRACTION - 1)) == 0)
+ {
+ /* If HASHFRACTION is a power of two, mcount can use shifting
+ instead of integer division. Precompute shift amount.
+
+ This is a constant but the compiler cannot compile the
+ expression away since the __ffs implementation is not known
+ to the compiler. Help the compiler by precomputing the
+ usual cases. */
+ assert (HASHFRACTION == 2);
+
+ if (sizeof (*froms) == 8)
+ log_hashfraction = 4;
+ else if (sizeof (*froms) == 16)
+ log_hashfraction = 5;
+ else
+ log_hashfraction = __ffs (HASHFRACTION * sizeof (*froms)) - 1;
+ }
+ else
+ log_hashfraction = -1;
+ tossize = textsize / HASHFRACTION;
+ fromlimit = textsize * ARCDENSITY / 100;
+ if (fromlimit < MINARCS)
+ fromlimit = MINARCS;
+ if (fromlimit > MAXARCS)
+ fromlimit = MAXARCS;
+ fromssize = fromlimit * sizeof (struct here_fromstruct);
+
+ expected_size = (sizeof (struct gmon_hdr)
+ + 4 + sizeof (struct gmon_hist_hdr) + kcountsize
+ + 4 + 4 + fromssize * sizeof (struct here_cg_arc_record));
+
+ /* Create the gmon_hdr we expect or write. */
+ struct real_gmon_hdr
+ {
+ char cookie[4];
+ int32_t version;
+ char spare[3 * 4];
+ } gmon_hdr;
+ if (sizeof (gmon_hdr) != sizeof (struct gmon_hdr)
+ || (offsetof (struct real_gmon_hdr, cookie)
+ != offsetof (struct gmon_hdr, cookie))
+ || (offsetof (struct real_gmon_hdr, version)
+ != offsetof (struct gmon_hdr, version)))
+ abort ();
+
+ memcpy (&gmon_hdr.cookie[0], GMON_MAGIC, sizeof (gmon_hdr.cookie));
+ gmon_hdr.version = GMON_SHOBJ_VERSION;
+ memset (gmon_hdr.spare, '\0', sizeof (gmon_hdr.spare));
+
+ /* Create the hist_hdr we expect or write. */
+ struct real_gmon_hist_hdr
+ {
+ char *low_pc;
+ char *high_pc;
+ int32_t hist_size;
+ int32_t prof_rate;
+ char dimen[15];
+ char dimen_abbrev;
+ } hist_hdr;
+ if (sizeof (hist_hdr) != sizeof (struct gmon_hist_hdr)
+ || (offsetof (struct real_gmon_hist_hdr, low_pc)
+ != offsetof (struct gmon_hist_hdr, low_pc))
+ || (offsetof (struct real_gmon_hist_hdr, high_pc)
+ != offsetof (struct gmon_hist_hdr, high_pc))
+ || (offsetof (struct real_gmon_hist_hdr, hist_size)
+ != offsetof (struct gmon_hist_hdr, hist_size))
+ || (offsetof (struct real_gmon_hist_hdr, prof_rate)
+ != offsetof (struct gmon_hist_hdr, prof_rate))
+ || (offsetof (struct real_gmon_hist_hdr, dimen)
+ != offsetof (struct gmon_hist_hdr, dimen))
+ || (offsetof (struct real_gmon_hist_hdr, dimen_abbrev)
+ != offsetof (struct gmon_hist_hdr, dimen_abbrev)))
+ abort ();
+
+ hist_hdr.low_pc = (char *) mapstart;
+ hist_hdr.high_pc = (char *) mapend;
+ hist_hdr.hist_size = kcountsize / sizeof (HISTCOUNTER);
+ hist_hdr.prof_rate = __profile_frequency ();
+ if (sizeof (hist_hdr.dimen) >= sizeof ("seconds"))
+ {
+ memcpy (hist_hdr.dimen, "seconds", sizeof ("seconds"));
+ memset (hist_hdr.dimen + sizeof ("seconds"), '\0',
+ sizeof (hist_hdr.dimen) - sizeof ("seconds"));
+ }
+ else
+ strncpy (hist_hdr.dimen, "seconds", sizeof (hist_hdr.dimen));
+ hist_hdr.dimen_abbrev = 's';
+
+ /* First determine the output name. We write in the directory
+ OUTPUT_DIR and the name is composed from the shared objects
+ soname (or the file name) and the ending ".profile". */
+ filename = (char *) alloca (strlen (GLRO(dl_profile_output)) + 1
+ + strlen (GLRO(dl_profile)) + sizeof ".profile");
+ cp = __stpcpy (filename, GLRO(dl_profile_output));
+ *cp++ = '/';
+ __stpcpy (__stpcpy (cp, GLRO(dl_profile)), ".profile");
+
+ fd = __open (filename, O_RDWR | O_CREAT | O_NOFOLLOW, DEFFILEMODE);
+ if (fd == -1)
+ {
+ char buf[400];
+ int errnum;
+
+ /* We cannot write the profiling data so don't do anything. */
+ errstr = "%s: cannot open file: %s\n";
+ print_error:
+ errnum = errno;
+ if (fd != -1)
+ __close (fd);
+ _dl_error_printf (errstr, filename,
+ __strerror_r (errnum, buf, sizeof buf));
+ return;
+ }
+
+ if (__fxstat64 (_STAT_VER, fd, &st) < 0 || !S_ISREG (st.st_mode))
+ {
+ /* Not stat'able or not a regular file => don't use it. */
+ errstr = "%s: cannot stat file: %s\n";
+ goto print_error;
+ }
+
+ /* Test the size. If it does not match what we expect from the size
+ values in the map MAP we don't use it and warn the user. */
+ if (st.st_size == 0)
+ {
+ /* We have to create the file. */
+ char buf[GLRO(dl_pagesize)];
+
+ memset (buf, '\0', GLRO(dl_pagesize));
+
+ if (__lseek (fd, expected_size & ~(GLRO(dl_pagesize) - 1), SEEK_SET) == -1)
+ {
+ cannot_create:
+ errstr = "%s: cannot create file: %s\n";
+ goto print_error;
+ }
+
+ if (TEMP_FAILURE_RETRY (__libc_write (fd, buf, (expected_size
+ & (GLRO(dl_pagesize)
+ - 1))))
+ < 0)
+ goto cannot_create;
+ }
+ else if (st.st_size != expected_size)
+ {
+ __close (fd);
+ wrong_format:
+
+ if (addr != NULL)
+ __munmap ((void *) addr, expected_size);
+
+ _dl_error_printf ("%s: file is no correct profile data file for `%s'\n",
+ filename, GLRO(dl_profile));
+ return;
+ }
+
+ addr = (struct gmon_hdr *) __mmap (NULL, expected_size, PROT_READ|PROT_WRITE,
+ MAP_SHARED|MAP_FILE, fd, 0);
+ if (addr == (struct gmon_hdr *) MAP_FAILED)
+ {
+ errstr = "%s: cannot map file: %s\n";
+ goto print_error;
+ }
+
+ /* We don't need the file descriptor anymore. */
+ __close (fd);
+
+ /* Pointer to data after the header. */
+ hist = (char *) (addr + 1);
+ kcount = (uint16_t *) ((char *) hist + sizeof (uint32_t)
+ + sizeof (struct gmon_hist_hdr));
+
+ /* Compute pointer to array of the arc information. */
+ narcsp = (uint32_t *) ((char *) kcount + kcountsize + sizeof (uint32_t));
+ data = (struct here_cg_arc_record *) ((char *) narcsp + sizeof (uint32_t));
+
+ if (st.st_size == 0)
+ {
+ /* Create the signature. */
+ memcpy (addr, &gmon_hdr, sizeof (struct gmon_hdr));
+
+ *(uint32_t *) hist = GMON_TAG_TIME_HIST;
+ memcpy (hist + sizeof (uint32_t), &hist_hdr,
+ sizeof (struct gmon_hist_hdr));
+
+ narcsp[-1] = GMON_TAG_CG_ARC;
+ }
+ else
+ {
+ /* Test the signature in the file. */
+ if (memcmp (addr, &gmon_hdr, sizeof (struct gmon_hdr)) != 0
+ || *(uint32_t *) hist != GMON_TAG_TIME_HIST
+ || memcmp (hist + sizeof (uint32_t), &hist_hdr,
+ sizeof (struct gmon_hist_hdr)) != 0
+ || narcsp[-1] != GMON_TAG_CG_ARC)
+ goto wrong_format;
+ }
+
+ /* Allocate memory for the froms data and the pointer to the tos records. */
+ tos = (uint16_t *) calloc (tossize + fromssize, 1);
+ if (tos == NULL)
+ {
+ __munmap ((void *) addr, expected_size);
+ _dl_fatal_printf ("Out of memory while initializing profiler\n");
+ /* NOTREACHED */
+ }
+
+ froms = (struct here_fromstruct *) ((char *) tos + tossize);
+ fromidx = 0;
+
+ /* Now we have to process all the arc count entries. BTW: it is
+ not critical whether the *NARCSP value changes meanwhile. Before
+ we enter a new entry in to toset we will check that everything is
+ available in TOS. This happens in _dl_mcount.
+
+ Loading the entries in reverse order should help to get the most
+ frequently used entries at the front of the list. */
+ for (idx = narcs = MIN (*narcsp, fromlimit); idx > 0; )
+ {
+ size_t to_index;
+ size_t newfromidx;
+ --idx;
+ to_index = (data[idx].self_pc / (HASHFRACTION * sizeof (*tos)));
+ newfromidx = fromidx++;
+ froms[newfromidx].here = &data[idx];
+ froms[newfromidx].link = tos[to_index];
+ tos[to_index] = newfromidx;
+ }
+
+ /* Setup counting data. */
+ if (kcountsize < highpc - lowpc)
+ {
+#if 0
+ s_scale = ((double) kcountsize / (highpc - lowpc)) * SCALE_1_TO_1;
+#else
+ size_t range = highpc - lowpc;
+ size_t quot = range / kcountsize;
+
+ if (quot >= SCALE_1_TO_1)
+ s_scale = 1;
+ else if (quot >= SCALE_1_TO_1 / 256)
+ s_scale = SCALE_1_TO_1 / quot;
+ else if (range > ULONG_MAX / 256)
+ s_scale = (SCALE_1_TO_1 * 256) / (range / (kcountsize / 256));
+ else
+ s_scale = (SCALE_1_TO_1 * 256) / ((range * 256) / kcountsize);
+#endif
+ }
+ else
+ s_scale = SCALE_1_TO_1;
+
+ /* Start the profiler. */
+ __profil ((void *) kcount, kcountsize, lowpc, s_scale);
+
+ /* Turn on profiling. */
+ running = 1;
+}
+
+
+void
+_dl_mcount (ElfW(Addr) frompc, ElfW(Addr) selfpc)
+{
+ volatile uint16_t *topcindex;
+ size_t i, fromindex;
+ struct here_fromstruct *fromp;
+
+ if (! running)
+ return;
+
+ /* Compute relative addresses. The shared object can be loaded at
+ any address. The value of frompc could be anything. We cannot
+ restrict it in any way, just set to a fixed value (0) in case it
+ is outside the allowed range. These calls show up as calls from
+ <external> in the gprof output. */
+ frompc -= lowpc;
+ if (frompc >= textsize)
+ frompc = 0;
+ selfpc -= lowpc;
+ if (selfpc >= textsize)
+ goto done;
+
+ /* Getting here we now have to find out whether the location was
+ already used. If yes we are lucky and only have to increment a
+ counter (this also has to be atomic). If the entry is new things
+ are getting complicated... */
+
+ /* Avoid integer divide if possible. */
+ if ((HASHFRACTION & (HASHFRACTION - 1)) == 0)
+ i = selfpc >> log_hashfraction;
+ else
+ i = selfpc / (HASHFRACTION * sizeof (*tos));
+
+ topcindex = &tos[i];
+ fromindex = *topcindex;
+
+ if (fromindex == 0)
+ goto check_new_or_add;
+
+ fromp = &froms[fromindex];
+
+ /* We have to look through the chain of arcs whether there is already
+ an entry for our arc. */
+ while (fromp->here->from_pc != frompc)
+ {
+ if (fromp->link != 0)
+ do
+ fromp = &froms[fromp->link];
+ while (fromp->link != 0 && fromp->here->from_pc != frompc);
+
+ if (fromp->here->from_pc != frompc)
+ {
+ topcindex = &fromp->link;
+
+ check_new_or_add:
+ /* Our entry is not among the entries we read so far from the
+ data file. Now see whether we have to update the list. */
+ while (narcs != *narcsp && narcs < fromlimit)
+ {
+ size_t to_index;
+ size_t newfromidx;
+ to_index = (data[narcs].self_pc
+ / (HASHFRACTION * sizeof (*tos)));
+ newfromidx = catomic_exchange_and_add (&fromidx, 1) + 1;
+ froms[newfromidx].here = &data[narcs];
+ froms[newfromidx].link = tos[to_index];
+ tos[to_index] = newfromidx;
+ catomic_increment (&narcs);
+ }
+
+ /* If we still have no entry stop searching and insert. */
+ if (*topcindex == 0)
+ {
+ uint_fast32_t newarc = catomic_exchange_and_add (narcsp, 1);
+
+ /* In rare cases it could happen that all entries in FROMS are
+ occupied. So we cannot count this anymore. */
+ if (newarc >= fromlimit)
+ goto done;
+
+ *topcindex = catomic_exchange_and_add (&fromidx, 1) + 1;
+ fromp = &froms[*topcindex];
+
+ fromp->here = &data[newarc];
+ data[newarc].from_pc = frompc;
+ data[newarc].self_pc = selfpc;
+ data[newarc].count = 0;
+ fromp->link = 0;
+ catomic_increment (&narcs);
+
+ break;
+ }
+
+ fromp = &froms[*topcindex];
+ }
+ else
+ /* Found in. */
+ break;
+ }
+
+ /* Increment the counter. */
+ catomic_increment (&fromp->here->count);
+
+ done:
+ ;
+}
+rtld_hidden_def (_dl_mcount)
generated by cgit v1.2.3 (git 2.25.1) at 2024-06-13 10:17:10 +0000