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gnu / binutils-gdb / ea3352172ec868b821fa34b31ba8128bde735405 / . / gprofng / libcollector / iolib.c
blob: 6881f02fd307471ba971a357110454662b8ea811 [file] [log] [blame]
/* Copyright (C) 2021 Free Software Foundation, Inc.
Contributed by Oracle.
This file is part of GNU Binutils.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, 51 Franklin Street - Fifth Floor, Boston,
MA 02110-1301, USA. */
#include "config.h"
#include <dlfcn.h>
#include <pthread.h>
#include <errno.h>
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <sys/mman.h>
#include <sys/param.h>
#include <sys/stat.h>
#include "gp-defs.h"
#include "collector.h"
#include "gp-experiment.h"
#include "memmgr.h"
/* TprintfT(<level>,...) definitions. Adjust per module as needed */
#define DBG_LT0 0 // for high-level configuration, unexpected errors/warnings
#define DBG_LT1 1 // for configuration details, warnings
#define DBG_LT2 2
#define DBG_LT3 3
/* ------------- Data and prototypes for block management --------- */
#define IO_BLK 0 /* Concurrent requests */
#define IO_SEQ 1 /* All requests are sequential, f.e. JAVA_CLASSES */
#define IO_TXT 2 /* Sequential requests. Text strings. */
#define ST_INIT 0 /* Initial state. Not allocated */
#define ST_FREE 1 /* Available */
#define ST_BUSY 2 /* Not available */
/* IO_BLK, IO_SEQ */
#define NCHUNKS 64
/* IO_TXT */
#define NBUFS 64 /* Number of text buffers */
#define CUR_BUSY(x) ((uint32_t) ((x)>>63)) /* bit 63 */
#define CUR_INDX(x) ((uint32_t) (((x)>>57) & 0x3fULL)) /* bits 62:57 */
#define CUR_FOFF(x) ((x) & 0x01ffffffffffffffULL) /* bits 56: 0 */
#define CUR_MAKE(busy, indx, foff) ((((uint64_t)(busy))<<63) | (((uint64_t)(indx))<<57) | ((uint64_t)(foff)) )
typedef struct Buffer
{
uint8_t *vaddr;
uint32_t left; /* bytes left */
uint32_t state; /* ST_FREE or ST_BUSY */
} Buffer;
typedef struct DataHandle
{
Pckt_type kind; /* obsolete (to be removed) */
int iotype; /* IO_BLK, IO_SEQ, IO_TXT */
int active;
char fname[MAXPATHLEN]; /* data file name */
/* IO_BLK, IO_SEQ */
uint32_t nflow; /* number of data flows */
uint32_t *blkstate; /* block states, nflow*NCHUNKS array */
uint32_t *blkoff; /* block offset, nflow*NCHUNKS array */
uint32_t nchnk; /* number of active chunks, probably small for IO_BLK */
uint8_t *chunks[NCHUNKS]; /* chunks (nflow contiguous blocks in virtual memory) */
uint32_t chblk[NCHUNKS]; /* number of active blocks in a chunk */
uint32_t nblk; /* number of blocks in data file */
int exempt; /* if exempt from experiment size limit */
/* IO_TXT */
Buffer *buffers; /* array of text buffers */
uint64_t curpos; /* current buffer and file offset */
} DataHandle;
#define PROFILE_DATAHNDL_MAX 16
static DataHandle data_hndls[PROFILE_DATAHNDL_MAX];
static int initialized = 0;
static long blksz; /* Block size. Multiple of page size. Power of two to make (x%blksz)==(x&(blksz-1)) fast. */
static long log2blksz; /* log2(blksz) to make (x/blksz)==(x>>log2blksz) fast. */
static uint32_t size_limit; /* Experiment size limit */
static uint32_t cur_size; /* Current experiment size */
static void init ();
static void deleteHandle (DataHandle *hndl);
static int exp_size_ck (int nblocks, char *fname);
/* IO_BLK, IO_SEQ */
static int allocateChunk (DataHandle *hndl, unsigned ichunk);
static uint8_t *getBlock (DataHandle *hndl, unsigned iflow, unsigned ichunk);
static int remapBlock (DataHandle *hndl, unsigned iflow, unsigned ichunk);
static int newBlock (DataHandle *hndl, unsigned iflow, unsigned ichunk);
static void deleteBlock (DataHandle *hndl, unsigned iflow, unsigned ichunk);
/* IO_TXT */
static int is_not_the_log_file (char *fname);
static int mapBuffer (char *fname, Buffer *buf, off64_t foff);
static int newBuffer (DataHandle *hndl, uint64_t pos);
static void writeBuffer (Buffer *buf, int blk_off, char *src, int len);
static void deleteBuffer (Buffer *buf);
/*
* Common buffer management routines
*/
static void
init ()
{
/* set the block size */
long pgsz = CALL_UTIL (sysconf)(_SC_PAGESIZE);
blksz = pgsz;
log2blksz = 16; /* ensure a minimum size */
while ((1 << log2blksz) < blksz)
log2blksz += 1;
blksz = 1L << log2blksz; /* ensure that blksz is a power of two */
TprintfT (DBG_LT1, "iolib init: page size=%ld (0x%lx) blksz=%ld (0x%lx) log2blksz=%ld\n",
pgsz, pgsz, (long) blksz, (long) blksz, (long) log2blksz);
size_limit = 0;
cur_size = 0;
initialized = 1;
}
DataHandle *
__collector_create_handle (char *descp)
{
int exempt = 0;
char *desc = descp;
if (desc[0] == '*')
{
desc++;
exempt = 1;
}
if (!initialized)
init ();
/* set up header for file, file name, etc. */
if (__collector_exp_dir_name == NULL)
{
__collector_log_write ("<event kind=\"%s\" id=\"%d\">__collector_exp_dir_name==NULL</event>\n",
SP_JCMD_CERROR, COL_ERROR_EXPOPEN);
return NULL;
}
char fname[MAXPATHLEN];
CALL_UTIL (strlcpy)(fname, __collector_exp_dir_name, sizeof (fname));
CALL_UTIL (strlcat)(fname, "/", sizeof (fname));
Pckt_type kind = 0;
int iotype = IO_BLK;
if (__collector_strcmp (desc, SP_HEAPTRACE_FILE) == 0)
kind = HEAP_PCKT;
else if (__collector_strcmp (desc, SP_SYNCTRACE_FILE) == 0)
kind = SYNC_PCKT;
else if (__collector_strcmp (desc, SP_IOTRACE_FILE) == 0)
kind = IOTRACE_PCKT;
else if (__collector_strcmp (desc, SP_RACETRACE_FILE) == 0)
kind = RACE_PCKT;
else if (__collector_strcmp (desc, SP_PROFILE_FILE) == 0)
kind = PROF_PCKT;
else if (__collector_strcmp (desc, SP_OMPTRACE_FILE) == 0)
kind = OMP_PCKT;
else if (__collector_strcmp (desc, SP_HWCNTR_FILE) == 0)
kind = HW_PCKT;
else if (__collector_strcmp (desc, SP_DEADLOCK_FILE) == 0)
kind = DEADLOCK_PCKT;
else if (__collector_strcmp (desc, SP_FRINFO_FILE) == 0)
CALL_UTIL (strlcat)(fname, "data.", sizeof (fname));
else if (__collector_strcmp (desc, SP_LOG_FILE) == 0)
iotype = IO_TXT;
else if (__collector_strcmp (desc, SP_MAP_FILE) == 0)
iotype = IO_TXT;
else if (__collector_strcmp (desc, SP_JCLASSES_FILE) == 0)
iotype = IO_SEQ;
else
{
__collector_log_write ("<event kind=\"%s\" id=\"%d\">iolib unknown file desc %s</event>\n",
SP_JCMD_CERROR, COL_ERROR_EXPOPEN, desc);
return NULL;
}
CALL_UTIL (strlcat)(fname, desc, sizeof (fname));
TprintfT (DBG_LT1, "createHandle calling open on fname = `%s', desc = `%s' %s\n",
fname, desc, (exempt == 0 ? "non-exempt" : "exempt"));
/* allocate a handle -- not mt-safe */
DataHandle *hndl = NULL;
for (int i = 0; i < PROFILE_DATAHNDL_MAX; ++i)
if (data_hndls[i].active == 0)
{
hndl = &data_hndls[i];
break;
}
/* out of handles? */
if (hndl == NULL)
{
__collector_log_write ("<event kind=\"%s\" id=\"%d\">%s</event>\n",
SP_JCMD_CERROR, COL_ERROR_NOHNDL, fname);
return NULL;
}
hndl->kind = kind;
hndl->nblk = 0;
hndl->exempt = exempt;
CALL_UTIL (strlcpy)(hndl->fname, fname, sizeof (hndl->fname));
int fd = CALL_UTIL (open)(hndl->fname,
O_RDWR | O_CREAT | O_TRUNC | O_EXCL,
S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH);
if (fd < 0)
{
TprintfT (0, "createHandle open failed -- hndl->fname = `%s', SP_LOG_FILE = `%s': %s\n",
hndl->fname, SP_LOG_FILE, CALL_UTIL (strerror)(errno));
if (is_not_the_log_file (hndl->fname) == 0)
{
char errbuf[4096];
/* If we are trying to create the handle for the log file, write to stderr, not the experiment */
CALL_UTIL (snprintf)(errbuf, sizeof (errbuf),
"create_handle: COL_ERROR_LOG_OPEN %s: %s\n", hndl->fname, CALL_UTIL (strerror)(errno));
CALL_UTIL (write)(2, errbuf, CALL_UTIL (strlen)(errbuf));
}
else
__collector_log_write ("<event kind=\"%s\" id=\"%d\" ec=\"%d\">%s: create_handle</event>\n",
SP_JCMD_CERROR, COL_ERROR_FILEOPN, errno, hndl->fname);
return NULL;
}
CALL_UTIL (close)(fd);
hndl->iotype = iotype;
if (hndl->iotype == IO_TXT)
{
/* allocate our buffers in virtual memory */
/* later, we will remap buffers individually to the file */
uint8_t *memory = (uint8_t*) CALL_UTIL (mmap64)(0,
(size_t) (NBUFS * blksz),
PROT_READ | PROT_WRITE,
#if ARCH(SPARC)
MAP_SHARED | MAP_ANON,
#else
MAP_PRIVATE | MAP_ANON,
#endif
-1,
(off64_t) 0);
if (memory == MAP_FAILED)
{
TprintfT (0, "create_handle: can't mmap MAP_ANON (for %s): %s\n", hndl->fname, CALL_UTIL (strerror)(errno));
/* see if this is the log file */
if (is_not_the_log_file (hndl->fname) == 0)
{
/* If we are trying to map the log file, write to stderr, not to the experiment */
char errbuf[4096];
CALL_UTIL (snprintf)(errbuf, sizeof (errbuf),
"create_handle: can't mmap MAP_ANON (for %s): %s\n", hndl->fname, CALL_UTIL (strerror)(errno));
CALL_UTIL (write)(2, errbuf, CALL_UTIL (strlen)(errbuf));
}
else /* write the error message into the experiment */
__collector_log_write ("<event kind=\"%s\" id=\"%d\" ec=\"%d\">MAP_ANON (for %s); create_handle</event>\n",
SP_JCMD_CERROR, COL_ERROR_FILEMAP, errno, hndl->fname);
return NULL;
}
TprintfT (DBG_LT2, " create_handle IO_TXT data buffer length=%ld (0x%lx) file='%s' memory=%p -- %p\n",
(long) (NBUFS * blksz), (long) (NBUFS * blksz), hndl->fname,
memory, memory + (NBUFS * blksz) - 1);
/* set up an array of buffers, pointing them to the virtual addresses */
TprintfT (DBG_LT2, "create_handle IO_TXT Buffer structures fname = `%s', NBUFS= %d, size = %ld (0x%lx)\n", fname,
NBUFS, (long) NBUFS * sizeof (Buffer), (long) NBUFS * sizeof (Buffer));
hndl->buffers = (Buffer*) __collector_allocCSize (__collector_heap, NBUFS * sizeof (Buffer), 1);
if (hndl->buffers == NULL)
{
TprintfT (0, "create_handle allocCSize for hndl->buffers failed\n");
CALL_UTIL (munmap)(memory, NBUFS * blksz);
return NULL;
}
for (int i = 0; i < NBUFS; i++)
{
Buffer *buf = &hndl->buffers[i];
buf->vaddr = memory + i * blksz;
buf->state = ST_FREE;
}
/* set the file pointer to the beginning of the file */
hndl->curpos = CUR_MAKE (0, 0, 0);
}
else
{
if (hndl->iotype == IO_BLK)
{
long nflow = CALL_UTIL (sysconf)(_SC_NPROCESSORS_ONLN);
if (nflow < 16)
nflow = 16;
hndl->nflow = (uint32_t) nflow;
}
else if (hndl->iotype == IO_SEQ)
hndl->nflow = 1;
TprintfT (DBG_LT2, "create_handle calling allocCSize blkstate fname=`%s' nflow=%d NCHUNKS=%d size=%ld (0x%lx)\n",
fname, hndl->nflow, NCHUNKS,
(long) (hndl->nflow * NCHUNKS * sizeof (uint32_t)),
(long) (hndl->nflow * NCHUNKS * sizeof (uint32_t)));
uint32_t *blkstate = (uint32_t*) __collector_allocCSize (__collector_heap, hndl->nflow * NCHUNKS * sizeof (uint32_t), 1);
if (blkstate == NULL)
return NULL;
for (int j = 0; j < hndl->nflow * NCHUNKS; ++j)
blkstate[j] = ST_INIT;
hndl->blkstate = blkstate;
TprintfT (DBG_LT2, "create_handle calling allocCSize blkoff fname=`%s' nflow=%d NCHUNKS=%d size=%ld (0x%lx)\n",
fname, hndl->nflow, NCHUNKS,
(long) (hndl->nflow * NCHUNKS * sizeof (uint32_t)),
(long) (hndl->nflow * NCHUNKS * sizeof (uint32_t)));
hndl->blkoff = (uint32_t*) __collector_allocCSize (__collector_heap, hndl->nflow * NCHUNKS * sizeof (uint32_t), 1);
if (hndl->blkoff == NULL)
return NULL;
hndl->nchnk = 0;
for (int j = 0; j < NCHUNKS; ++j)
{
hndl->chunks[j] = NULL;
hndl->chblk[j] = 0;
}
}
hndl->active = 1;
return hndl;
}
static void
deleteHandle (DataHandle *hndl)
{
if (hndl->active == 0)
return;
hndl->active = 0;
if (hndl->iotype == IO_BLK || hndl->iotype == IO_SEQ)
{
/* Delete all blocks. */
/* Since access to hndl->active is not synchronized it's still
* possible that we leave some blocks undeleted.
*/
for (int j = 0; j < hndl->nflow * NCHUNKS; ++j)
{
uint32_t oldstate = hndl->blkstate[j];
if (oldstate != ST_FREE)
continue;
/* Mark as busy */
uint32_t state = __collector_cas_32 (hndl->blkstate + j, oldstate, ST_BUSY);
if (state != oldstate)
continue;
deleteBlock (hndl, j / NCHUNKS, j % NCHUNKS);
}
}
else if (hndl->iotype == IO_TXT)
{
/*
* First, make sure that buffers are in some "coherent" state:
*
* At this point, the handle is no longer active. But some threads
* might already have passed the active-handle check and are now
* trying to schedule writes. So, set the handle pointer to "busy".
* This will prevent new writes from being scheduled. Threads that
* polling will time out.
*/
hrtime_t timeout = __collector_gethrtime () + 10 * ((hrtime_t) 1000000000);
volatile uint32_t busy = 0;
while (1)
{
uint32_t indx;
uint64_t opos, npos, foff;
int blk_off;
/* read the current pointer */
opos = hndl->curpos;
busy = CUR_BUSY (opos);
indx = CUR_INDX (opos);
foff = CUR_FOFF (opos);
if (busy == 1)
{
if (__collector_gethrtime () > timeout)
{
TprintfT (0, "deleteHandle ERROR: timeout cleaning up handle for %s\n", hndl->fname);
return;
}
continue;
}
blk_off = foff & (blksz - 1);
if (blk_off > 0)
foff += blksz - blk_off;
npos = CUR_MAKE (1, indx, foff);
/* try to update the handle position atomically */
if (__collector_cas_64p (&hndl->curpos, &opos, &npos) != opos)
continue;
/*
* If the last buffer won't be filled, account for
* the white space at the end so that the buffer will
* be deleted properly.
*/
if (blk_off > 0)
{
Buffer *buf = &hndl->buffers[indx];
if (__collector_subget_32 (&buf->left, blksz - blk_off) == 0)
deleteBuffer (buf);
}
break;
}
/* wait for buffers to be deleted */
timeout = __collector_gethrtime () + 10 * ((hrtime_t) 1000000000);
for (int i = 0; i < NBUFS; i++)
{
Buffer *buf = &hndl->buffers[i];
while (__collector_cas_32 (&buf->state, ST_FREE, ST_INIT) != ST_FREE)
{
if (__collector_gethrtime () > timeout)
{
TprintfT (0, "deleteHandle ERROR: timeout waiting for buffer %d for %s\n", i, hndl->fname);
return;
}
}
CALL_UTIL (munmap)(buf->vaddr, blksz);
}
/* free buffer array */
__collector_freeCSize (__collector_heap, hndl->buffers, NBUFS * sizeof (Buffer));
}
}
void
__collector_delete_handle (DataHandle *hndl)
{
if (hndl == NULL)
return;
deleteHandle (hndl);
}
static int
exp_size_ck (int nblocks, char *fname)
{
if (size_limit == 0)
return 0;
/* do an atomic add to the cur_size */
uint32_t old_size = cur_size;
uint32_t new_size;
for (;;)
{
new_size = __collector_cas_32 (&cur_size, old_size, old_size + nblocks);
if (new_size == old_size)
{
new_size = old_size + nblocks;
break;
}
old_size = new_size;
}
TprintfT (DBG_LT2, "exp_size_ck() adding %d block(s); new_size = %d, limit = %d blocks; fname = %s\n",
nblocks, new_size, size_limit, fname);
/* pause the entire collector if we have exceeded the limit */
if (old_size < size_limit && new_size >= size_limit)
{
TprintfT (0, "exp_size_ck() experiment size limit exceeded; new_size = %ld, limit = %ld blocks; fname = %s\n",
(long) new_size, (long) size_limit, fname);
(void) __collector_log_write ("<event kind=\"%s\" id=\"%d\">%ld blocks (each %ld bytes)</event>\n",
SP_JCMD_CWARN, COL_ERROR_SIZELIM, (long) size_limit, (long) blksz);
__collector_pause_m ("size-limit");
__collector_terminate_expt ();
return -1;
}
return 0;
}
int
__collector_set_size_limit (char *par)
{
if (!initialized)
init ();
int lim = CALL_UTIL (strtol)(par, &par, 0);
size_limit = (uint32_t) ((uint64_t) lim * 1024 * 1024 / blksz);
TprintfT (DBG_LT0, "collector_size_limit set to %d MB. = %d blocks\n",
lim, size_limit);
(void) __collector_log_write ("<setting limit=\"%d\"/>\n", lim);
return COL_ERROR_NONE;
}
/*
* IO_BLK and IO_SEQ files
*/
/*
* Allocate a chunk (nflow blocks) contiguously in virtual memory.
* Its blocks will be mmapped to the file individually.
*/
static int
allocateChunk (DataHandle *hndl, unsigned ichunk)
{
/*
* hndl->chunks[ichunk] is one of:
* - NULL (initial value)
* - CHUNK_BUSY (transition state when allocating the chunk)
* - some address (the allocated chunk)
*/
uint8_t *CHUNK_BUSY = (uint8_t *) 1;
hrtime_t timeout = 0;
while (1)
{
if (hndl->chunks[ichunk] > CHUNK_BUSY)
return 0; /* the chunk has already been allocated */
/* try to allocate the chunk (change: NULL => CHUNK_BUSY) */
if (__collector_cas_ptr (&hndl->chunks[ichunk], NULL, CHUNK_BUSY) == NULL)
{
/* allocate virtual memory */
uint8_t *newchunk = (uint8_t*) CALL_UTIL (mmap64)(0,
(size_t) (blksz * hndl->nflow),
PROT_READ | PROT_WRITE,
#if ARCH(SPARC)
MAP_SHARED | MAP_ANON,
#else
MAP_PRIVATE | MAP_ANON,
#endif
-1, (off64_t) 0);
if (newchunk == MAP_FAILED)
{
deleteHandle (hndl);
TprintfT (DBG_LT1, " allocateChunk mmap: start=0x%x length=%ld (0x%lx), offset=%d ret=%p\n",
0, (long) (blksz * hndl->nflow),
(long) (blksz * hndl->nflow), 0, newchunk);
TprintfT (0, "allocateChunk: can't mmap MAP_ANON (for %s): %s\n", hndl->fname, CALL_UTIL (strerror) (errno));
__collector_log_write ("<event kind=\"%s\" id=\"%d\" ec=\"%d\">MAP_ANON (for %s)</event>\n",
SP_JCMD_CERROR, COL_ERROR_FILEMAP, errno, hndl->fname);
return 1;
}
/* assign allocated address to our chunk */
if (__collector_cas_ptr (&hndl->chunks[ichunk], CHUNK_BUSY, newchunk) != CHUNK_BUSY)
{
TprintfT (0, "allocateChunk: can't release chunk CAS lock for %s\n", hndl->fname);
__collector_log_write ("<event kind=\"%s\" id=\"%d\">couldn't release chunk CAS lock (%s)</event>\n",
SP_JCMD_CERROR, COL_ERROR_GENERAL, hndl->fname);
}
__collector_inc_32 (&hndl->nchnk);
return 0;
}
/* check for time out */
if (timeout == 0)
timeout = __collector_gethrtime () + 10 * ((hrtime_t) 1000000000);
if (__collector_gethrtime () > timeout)
{
TprintfT (0, "allocateChunk: timeout for %s\n", hndl->fname);
__collector_log_write ("<event kind=\"%s\" id=\"%d\">timeout allocating chunk for %s</event>\n",
SP_JCMD_CERROR, COL_ERROR_GENERAL, hndl->fname);
return 1;
}
}
}
/*
* Get the address for block (iflow,ichunk).
*/
static uint8_t *
getBlock (DataHandle *hndl, unsigned iflow, unsigned ichunk)
{
return hndl->chunks[ichunk] + iflow * blksz;
}
/*
* Map block (iflow,ichunk) to the next part of the file.
*/
static int
remapBlock (DataHandle *hndl, unsigned iflow, unsigned ichunk)
{
int rc = 0;
int fd;
/* Get the old file nblk and increment it atomically. */
uint32_t oldblk = hndl->nblk;
for (;;)
{
uint32_t newblk = __collector_cas_32 (&hndl->nblk, oldblk, oldblk + 1);
if (newblk == oldblk)
break;
oldblk = newblk;
}
off64_t offset = (off64_t) oldblk * blksz;
/* 6618470: disable thread cancellation */
int old_cstate;
pthread_setcancelstate (PTHREAD_CANCEL_DISABLE, &old_cstate);
/* Open the file. */
int iter = 0;
hrtime_t tso = __collector_gethrtime ();
for (;;)
{
fd = CALL_UTIL (open)(hndl->fname, O_RDWR, 0);
if (fd < 0)
{
if (errno == EMFILE)
{
/* too many open files */
iter++;
if (iter > 1000)
{
/* we've tried 1000 times; kick error back to caller */
char errmsg[MAXPATHLEN + 50];
hrtime_t teo = __collector_gethrtime ();
double deltato = (double) (teo - tso) / 1000000.;
(void) CALL_UTIL (snprintf) (errmsg, sizeof (errmsg), " t=%d, %s: open-retries-failed = %d, %3.6f ms.; remap",
__collector_thr_self (), hndl->fname, iter, deltato);
__collector_log_write ("<event kind=\"%s\" id=\"%d\">%s</event>\n",
SP_JCMD_COMMENT, COL_COMMENT_NONE, errmsg);
rc = 1;
goto exit;
}
/* keep trying */
continue;
}
deleteHandle (hndl);
TprintfT (0, "remapBlock: can't open file: %s: %s\n", hndl->fname, STR (CALL_UTIL (strerror)(errno)));
__collector_log_write ("<event kind=\"%s\" id=\"%d\" ec=\"%d\">t=%llu, %s: remap </event>\n",
SP_JCMD_CERROR, COL_ERROR_FILEOPN, errno,
(unsigned long long) __collector_thr_self (),
hndl->fname);
rc = 1;
goto exit;
}
else
break;
}
/* report number of retries of the open due to too many open fd's */
if (iter > 0)
{
char errmsg[MAXPATHLEN + 50];
hrtime_t teo = __collector_gethrtime ();
double deltato = (double) (teo - tso) / 1000000.;
(void) CALL_UTIL (snprintf) (errmsg, sizeof (errmsg), " t=%d, %s: open-retries = %d, %3.6f ms.; remap",
__collector_thr_self (), hndl->fname, iter, deltato);
__collector_log_write ("<event kind=\"%s\" id=\"%d\">%s</event>\n",
SP_JCMD_COMMENT, COL_COMMENT_NONE, errmsg);
}
/* Ensure disk space is allocated and the block offset is 0 */
uint32_t zero = 0;
int n = CALL_UTIL (pwrite64)(fd, &zero, sizeof (zero), (off64_t) (offset + blksz - sizeof (zero)));
if (n <= 0)
{
deleteHandle (hndl);
TprintfT (0, "remapBlock: can't pwrite file: %s : errno=%d\n", hndl->fname, errno);
__collector_log_write ("<event kind=\"%s\" id=\"%d\" ec=\"%d\">%s: remap</event>\n",
SP_JCMD_CERROR, COL_ERROR_NOSPACE, errno, hndl->fname);
CALL_UTIL (close)(fd);
rc = 1;
goto exit;
}
hndl->blkoff[iflow * NCHUNKS + ichunk] = 0;
/* Map block to file */
uint8_t *bptr = getBlock (hndl, iflow, ichunk);
uint8_t *vaddr = (uint8_t *) CALL_UTIL (mmap64)(
(void*) bptr,
(size_t) blksz,
PROT_READ | PROT_WRITE,
MAP_SHARED | MAP_FIXED,
fd,
offset);
if (vaddr != bptr)
{
deleteHandle (hndl);
TprintfT (DBG_LT1, " remapBlock mmap: start=%p length=%ld (0x%lx) offset=0x%llx ret=%p\n",
bptr, (long) blksz, (long) blksz, (long long) offset, vaddr);
TprintfT (0, "remapBlock: can't mmap file: %s : errno=%d\n", hndl->fname, errno);
(void) __collector_log_write ("<event kind=\"%s\" id=\"%d\" ec=\"%d\">%s: remap</event>\n",
SP_JCMD_CERROR, COL_ERROR_FILEMAP, errno, hndl->fname);
CALL_UTIL (close)(fd);
rc = 1;
goto exit;
}
CALL_UTIL (close)(fd);
if (hndl->exempt == 0)
exp_size_ck (1, hndl->fname);
else
Tprintf (DBG_LT1, "exp_size_ck() bypassed for %d block(s); exempt fname = %s\n",
1, hndl->fname);
exit:
/* Restore the previous cancellation state */
pthread_setcancelstate (old_cstate, NULL);
return rc;
}
static int
newBlock (DataHandle *hndl, unsigned iflow, unsigned ichunk)
{
if (allocateChunk (hndl, ichunk) != 0)
return 1;
if (remapBlock (hndl, iflow, ichunk) != 0)
return 1;
/* Update the number of active blocks */
__collector_inc_32 (hndl->chblk + ichunk);
return 0;
}
static void
deleteBlock (DataHandle *hndl, unsigned iflow, unsigned ichunk)
{
uint8_t *bptr = getBlock (hndl, iflow, ichunk);
CALL_UTIL (munmap)((void*) bptr, blksz);
hndl->blkstate[iflow * NCHUNKS + ichunk] = ST_INIT;
/* Update the number of active blocks */
__collector_dec_32 (hndl->chblk + ichunk);
}
int
__collector_write_record (DataHandle *hndl, Common_packet *pckt)
{
if (hndl == NULL || !hndl->active)
return 1;
/* fill in the fields of the common packet structure */
if (pckt->type == 0)
pckt->type = hndl->kind;
if (pckt->tstamp == 0)
pckt->tstamp = __collector_gethrtime ();
if (pckt->lwp_id == 0)
pckt->lwp_id = __collector_lwp_self ();
if (pckt->thr_id == 0)
pckt->thr_id = __collector_thr_self ();
if (pckt->cpu_id == 0)
pckt->cpu_id = CALL_UTIL (getcpuid)();
if (pckt->tsize == 0)
pckt->tsize = sizeof (Common_packet);
TprintfT (DBG_LT3, "collector_write_record to %s, type:%d tsize:%d\n",
hndl->fname, pckt->type, pckt->tsize);
return __collector_write_packet (hndl, (CM_Packet*) pckt);
}
int
__collector_write_packet (DataHandle *hndl, CM_Packet *pckt)
{
if (hndl == NULL || !hndl->active)
return 1;
/* if the experiment is not open, there should be no writes */
if (__collector_expstate != EXP_OPEN)
{
#ifdef DEBUG
char *xstate;
switch (__collector_expstate)
{
case EXP_INIT:
xstate = "EXP_INIT";
break;
case EXP_OPEN:
xstate = "EXP_OPEN";
break;
case EXP_PAUSED:
xstate = "EXP_PAUSED";
break;
case EXP_CLOSED:
xstate = "EXP_CLOSED";
break;
default:
xstate = "Unknown";
break;
}
TprintfT (0, "collector_write_packet: write to %s while experiment state is %s\n",
hndl->fname, xstate);
#endif
return 1;
}
int recsz = pckt->tsize;
if (recsz > blksz)
{
TprintfT (0, "collector_write_packet: packet too long: %d (max %ld)\n", recsz, blksz);
return 1;
}
unsigned tid = (__collector_no_threads ? __collector_lwp_self () : __collector_thr_self ());
unsigned iflow = tid % hndl->nflow;
/* Acquire block */
uint32_t *sptr = &hndl->blkstate[iflow * NCHUNKS];
uint32_t state = ST_BUSY;
unsigned ichunk;
for (ichunk = 0; ichunk < NCHUNKS; ++ichunk)
{
uint32_t oldstate = sptr[ichunk];
if (oldstate == ST_BUSY)
continue;
/* Mark as busy */
state = __collector_cas_32 (sptr + ichunk, oldstate, ST_BUSY);
if (state == oldstate)
break;
if (state == ST_BUSY)
continue;
/* It's possible the state changed from ST_INIT to ST_FREE */
oldstate = state;
state = __collector_cas_32 (sptr + ichunk, oldstate, ST_BUSY);
if (state == oldstate)
break;
}
if (state == ST_BUSY || ichunk == NCHUNKS)
{
/* We are out of blocks for this data flow.
* We might switch to another flow but for now report and return.
*/
TprintfT (0, "collector_write_packet: all %d blocks on flow %d for %s are busy\n",
NCHUNKS, iflow, hndl->fname);
return 1;
}
if (state == ST_INIT && newBlock (hndl, iflow, ichunk) != 0)
return 1;
uint8_t *bptr = getBlock (hndl, iflow, ichunk);
uint32_t blkoff = hndl->blkoff[iflow * NCHUNKS + ichunk];
if (blkoff + recsz > blksz)
{
/* The record doesn't fit. Close the block */
if (blkoff < blksz)
{
Common_packet *closed = (Common_packet *) (bptr + blkoff);
closed->type = CLOSED_PCKT;
closed->tsize = blksz - blkoff; /* redundant */
}
if (remapBlock (hndl, iflow, ichunk) != 0)
return 1;
blkoff = hndl->blkoff[iflow * NCHUNKS + ichunk];
}
if (blkoff + recsz < blksz)
{
/* Set the empty padding */
Common_packet *empty = (Common_packet *) (bptr + blkoff + recsz);
empty->type = EMPTY_PCKT;
empty->tsize = blksz - blkoff - recsz;
}
__collector_memcpy (bptr + blkoff, pckt, recsz);
/* Release block */
if (hndl->active == 0)
{
deleteBlock (hndl, iflow, ichunk);
return 0;
}
hndl->blkoff[iflow * NCHUNKS + ichunk] += recsz;
sptr[ichunk] = ST_FREE;
return 0;
}
/*
* IO_TXT files
*
* IO_TXT covers the case where many threads are trying to write text messages
* sequentially (atomically) to a file. Examples include SP_LOG_FILE and SP_MAP_FILE.
*
* The file is not written directly, but by writing to mmapped virtual memory.
* The granularity of the mapping is a "Buffer". There may be as many as
* NBUFS buffers at any one time.
*
* The current position of the file is handled via hndl->curpos.
*
* * It is accessed atomically with 64-bit CAS instructions.
*
* * This 64-bit word encapsulates:
* - busy: a bit to lock access to hndl->curpos
* - indx: an index indicating which Buffer to use for the current position
* - foff: the file offset
*
* * The contents are accessed with:
* - unpack macros: CUR_BUSY CUR_INDX CUR_FOFF
* - pack macro : CUR_MAKE
*
* Conceptually, what happens when a thread wants to write a message is:
* - acquire the hndl->curpos "busy" lock
* . acquire and map new Buffers if needed to complete the message
* . update the file offset
* . release the lock
* - write to the corresponding buffers
*
* Each Buffer has a buf->left field that tracks how many more bytes
* need to be written to the Buffer. After a thread writes to a Buffer,
* it decrements buf->left atomically. When buf->left reaches 0, the
* Buffer (mapping) is deleted, freeing the Buffer for a new mapping.
*
* The actual implementation has some twists:
*
* * If the entire text message fits into the current Buffer -- that is,
* no new Buffers are needed -- the thread does not acquire the lock.
* It simply updates hndl->curpos atomically to the new file offset.
*
* * There are various timeouts to prevent hangs in case of abnormalities.
*/
static int
is_not_the_log_file (char *fname)
{
if (CALL_UTIL (strstr)(fname, SP_LOG_FILE) == NULL)
return 1;
return 0;
}
static int
mapBuffer (char *fname, Buffer *buf, off64_t foff)
{
int rc = 0;
/* open fname */
int fd = CALL_UTIL (open)(fname, O_RDWR, 0);
if (fd < 0)
{
TprintfT (0, "mapBuffer ERROR: can't open file: %s\n", fname);
if (is_not_the_log_file (fname))
__collector_log_write ("<event kind=\"%s\" id=\"%d\" ec=\"%d\">%s: mapBuffer</event>\n",
SP_JCMD_CERROR, COL_ERROR_FILEOPN, errno, fname);
return 1;
}
TprintfT (DBG_LT2, "mapBuffer pwrite file %s at 0x%llx\n", fname, (long long) foff);
/* ensure disk space is allocated */
char nl = '\n';
int n = CALL_UTIL (pwrite64)(fd, &nl, sizeof (nl), (off64_t) (foff + blksz - sizeof (nl)));
if (n <= 0)
{
TprintfT (0, "mapBuffer ERROR: can't pwrite file %s at 0x%llx\n", fname,
(long long) (foff + blksz - sizeof (nl)));
if (is_not_the_log_file (fname))
__collector_log_write ("<event kind=\"%s\" id=\"%d\" ec=\"%d\">%s: mapBuffer</event>\n",
SP_JCMD_CERROR, COL_ERROR_FILETRNC, errno, fname);
rc = 1;
goto exit;
}
/* mmap buf->vaddr to fname at foff */
uint8_t *vaddr = CALL_UTIL (mmap64)(buf->vaddr, (size_t) blksz,
PROT_READ | PROT_WRITE, MAP_SHARED | MAP_FIXED, fd, foff);
if (vaddr != buf->vaddr)
{
TprintfT (DBG_LT1, " mapBuffer mmap: start=%p length=%ld (0x%lx) offset=0x%llx ret=%p\n",
buf->vaddr, blksz, blksz, (long long) foff, vaddr);
TprintfT (0, "mapBuffer ERROR: can't mmap %s: vaddr=%p size=%ld (0x%lx) ret=%p off=0x%llx errno=%d\n",
fname, buf->vaddr, blksz, blksz, vaddr, (long long) foff, errno);
if (is_not_the_log_file (fname))
__collector_log_write ("<event kind=\"%s\" id=\"%d\" ec=\"%d\">%s: mapBuffer</event>\n",
SP_JCMD_CERROR, COL_ERROR_FILEMAP, errno, fname);
rc = 1;
}
else
buf->left = blksz;
exit:
CALL_UTIL (close)(fd);
/* Should we check buffer size? Let's not since:
* - IO_TXT is typically not going to be that big
* - we want log.xml to be treated specially
*/
/* exp_size_ck( 1, fname ); */
return rc;
}
static int
newBuffer (DataHandle *hndl, uint64_t foff)
{
/* find a ST_FREE buffer and mark it ST_BUSY */
int ibuf;
for (ibuf = 0; ibuf < NBUFS; ibuf++)
if (__collector_cas_32 (&hndl->buffers[ibuf].state, ST_FREE, ST_BUSY) == ST_FREE)
break;
if (ibuf >= NBUFS)
{
TprintfT (0, "newBuffer ERROR: all buffers busy for %s\n", hndl->fname);
return -1;
}
Buffer *nbuf = hndl->buffers + ibuf;
/* map buffer */
if (mapBuffer (hndl->fname, nbuf, foff) != 0)
{
nbuf->state = ST_FREE;
ibuf = -1;
goto exit;
}
exit:
return ibuf;
}
static void
writeBuffer (Buffer *buf, int blk_off, char *src, int len)
{
__collector_memcpy (buf->vaddr + blk_off, src, len);
if (__collector_subget_32 (&buf->left, len) == 0)
deleteBuffer (buf);
}
static void
deleteBuffer (Buffer *buf)
{
buf->state = ST_FREE;
}
int
__collector_write_string (DataHandle *hndl, char *src, int len)
{
if (hndl == NULL || !hndl->active)
return 1;
if (len <= 0)
return 0;
hrtime_t timeout = __collector_gethrtime () + 20 * ((hrtime_t) 1000000000);
volatile uint32_t busy = 0;
while (1)
{
uint32_t indx;
uint64_t opos, foff, base;
int blk_off, buf_indices[NBUFS], ibuf, nbufs;
/* read and decode the current pointer */
opos = hndl->curpos;
busy = CUR_BUSY (opos);
indx = CUR_INDX (opos);
foff = CUR_FOFF (opos);
if (busy == 1)
{
if (__collector_gethrtime () > timeout)
{
/*
* E.g., if another thread deleted the handle
* after we checked hndl->active.
*/
TprintfT (0, "__collector_write_string ERROR: timeout writing length=%d to text file: %s\n", len, hndl->fname);
return 1;
}
continue;
}
/* initial block offset */
blk_off = foff & (blksz - 1);
/* number of new buffers to map */
int lastbuf = ((foff + len - 1) >> log2blksz); /* last block file index we will write */
int firstbuf = ((foff - 1) >> log2blksz); /* last block file index we have written */
nbufs = lastbuf - firstbuf;
TprintfT (DBG_LT2, "__collector_write_string firstbuf = %d, lastbuf = %d, nbufs = %d, log2blksz = %ld\n",
firstbuf, lastbuf, nbufs, log2blksz);
if (nbufs >= NBUFS)
{
Tprintf (0, "__collector_write_string ERROR: string of length %d too long to be written to text file: %s\n", len, hndl->fname);
return 1;
}
/* things are simple if we don't need new buffers */
if (nbufs == 0)
{
/* try to update the handle position atomically */
uint64_t npos = CUR_MAKE (0, indx, foff + len);
if (__collector_cas_64p (&hndl->curpos, &opos, &npos) != opos)
continue;
/* success! copy our string and we're done */
TprintfT (DBG_LT2, "__collector_write_string writeBuffer[%d]: vaddr = %p, len = %d, foff = %lld, '%s'\n",
indx, hndl->buffers[indx].vaddr, len, (long long) foff, src);
writeBuffer (&hndl->buffers[indx], foff & (blksz - 1), src, len);
break;
}
/* initialize the new signal mask */
sigset_t new_mask;
sigset_t old_mask;
CALL_UTIL (sigfillset)(&new_mask);
/* 6618470: disable thread cancellation */
int old_cstate;
pthread_setcancelstate (PTHREAD_CANCEL_DISABLE, &old_cstate);
/* block all signals */
CALL_UTIL (sigprocmask)(SIG_SETMASK, &new_mask, &old_mask);
/* but if we need new buffers, "lock" the handle pointer */
uint64_t lpos = CUR_MAKE (1, indx, foff);
if (__collector_cas_64p (&hndl->curpos, &opos, &lpos) != opos)
{
/* restore signal mask */
CALL_UTIL (sigprocmask)(SIG_SETMASK, &old_mask, NULL);
/* Restore the previous cancellation state */
pthread_setcancelstate (old_cstate, NULL);
continue;
}
/* map new buffers */
base = ((foff - 1) & ~(blksz - 1)); /* last buffer to have been mapped */
for (ibuf = 0; ibuf < nbufs; ibuf++)
{
base += blksz;
buf_indices[ibuf] = newBuffer (hndl, base);
if (buf_indices[ibuf] < 0)
break;
}
/* "unlock" the handle pointer */
uint64_t npos = CUR_MAKE (0, indx, foff);
if (ibuf == nbufs)
npos = CUR_MAKE (0, buf_indices[nbufs - 1], foff + len);
if (__collector_cas_64p (&hndl->curpos, &lpos, &npos) != lpos)
{
TprintfT (0, "__collector_write_string ERROR: file handle corrupted: %s\n", hndl->fname);
/*
* At this point, the handle is apparently corrupted and
* presumably locked. No telling what's going on. Still
* let's proceed and write our data and let a later thread
* raise an error if it encounters one.
*/
}
/* restore signal mask */
CALL_UTIL (sigprocmask)(SIG_SETMASK, &old_mask, NULL);
/* Restore the previous cancellation state */
pthread_setcancelstate (old_cstate, NULL);
/* if we couldn't map all the buffers we needed, don't write any part of the string */
if (ibuf < nbufs)
{
TprintfT (0, "__collector_write_string ERROR: can't map new buffer: %s\n", hndl->fname);
return 1;
}
/* write any data to the old block */
if (blk_off > 0)
{
TprintfT (DBG_LT2, "__collector_write_string partial writeBuffer[%d]: len=%ld, foff = %d '%s'\n",
indx, blksz - blk_off, blk_off, src);
writeBuffer (&hndl->buffers[indx], blk_off, src, blksz - blk_off);
src += blksz - blk_off;
len -= blksz - blk_off;
}
/* write data to the new blocks */
for (ibuf = 0; ibuf < nbufs; ibuf++)
{
int clen = blksz;
if (clen > len)
clen = len;
TprintfT (DBG_LT2, "__collector_write_string continue writeBuffer[%d]: len= %d, %s",
ibuf, clen, src);
writeBuffer (&hndl->buffers[buf_indices[ibuf]], 0, src, clen);
src += clen;
len -= clen;
}
break;
}
return 0;
}