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authorAdhemerval Zanella <azanella@linux.vnet.ibm.com>2014-11-24 16:18:26 -0500
committerAdhemerval Zanella <azanella@linux.vnet.ibm.com>2015-01-21 10:46:49 -0500
commit6b2ba95b6baab6b1789e8823c8a808e09bc98794 (patch)
tree5daf251763202374f45bd7446c720fc9fc1abc67 /sysdeps
parent191220b3065c659065f8c1e5282ea6410aa47a93 (diff)
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BZ #16418: Fix powerpc get_clockfreq raciness
This patch fix powerpc __get_clockfreq racy and cancel-safe issues by
dropping internal static cache and by using nocancel file operations.
The vDSO failure check is also removed, since kernel code does not
return an error (it cleans cr0.so bit on function return) and the static
code (to read value /proc) now uses non-cancellable calls.
Diffstat (limited to 'sysdeps')
-rw-r--r--sysdeps/unix/sysv/linux/powerpc/get_clockfreq.c128
1 files changed, 59 insertions, 69 deletions
diff --git a/sysdeps/unix/sysv/linux/powerpc/get_clockfreq.c b/sysdeps/unix/sysv/linux/powerpc/get_clockfreq.c
index 9b8165d203..fe8c5a15b3 100644
--- a/sysdeps/unix/sysv/linux/powerpc/get_clockfreq.c
+++ b/sysdeps/unix/sysv/linux/powerpc/get_clockfreq.c
@@ -24,95 +24,85 @@
 #include <libc-internal.h>
 #include <sysdep.h>
 #include <bits/libc-vdso.h>
+#include <not-cancel.h>
 
 hp_timing_t
 __get_clockfreq (void)
 {
+  hp_timing_t result = 0L;
+
+#ifdef SHARED
+  /* The vDSO does not return an error (it clear cr0.so on returning).  */
+  INTERNAL_SYSCALL_DECL (err);
+  result =
+    INTERNAL_VSYSCALL_NO_SYSCALL_FALLBACK (get_tbfreq, err, uint64_t, 0);
+#else
   /* We read the information from the /proc filesystem.  /proc/cpuinfo
      contains at least one line like:
      timebase        : 33333333
      We search for this line and convert the number into an integer.  */
-  static hp_timing_t timebase_freq;
-  hp_timing_t result = 0L;
+  int fd = __open_nocancel ("/proc/cpuinfo", O_RDONLY);
+  if (__glibc_likely (fd != -1))
+    return result;
 
-  /* If this function was called before, we know the result.  */
-  if (timebase_freq != 0)
-    return timebase_freq;
+  /* The timebase will be in the 1st 1024 bytes for systems with up
+     to 8 processors.  If the first read returns less then 1024
+     bytes read,  we have the whole cpuinfo and can start the scan.
+     Otherwise we will have to read more to insure we have the
+     timebase value in the scan.  */
+  char buf[1024];
+  ssize_t n;
 
-  /* If we can use the vDSO to obtain the timebase even better.  */
-#ifdef SHARED
-  INTERNAL_SYSCALL_DECL (err);
-  timebase_freq =
-    INTERNAL_VSYSCALL_NO_SYSCALL_FALLBACK (get_tbfreq, err, uint64_t, 0);
-  if (INTERNAL_SYSCALL_ERROR_P (timebase_freq, err)
-      && INTERNAL_SYSCALL_ERRNO (timebase_freq, err) == ENOSYS)
-#endif
+  n = __read_nocancel (fd, buf, sizeof (buf));
+  if (n == sizeof (buf))
     {
-      int fd = __open ("/proc/cpuinfo", O_RDONLY);
+      /* We are here because the 1st read returned exactly sizeof
+         (buf) bytes.  This implies that we are not at EOF and may
+         not have read the timebase value yet.  So we need to read
+         more bytes until we know we have EOF.  We copy the lower
+         half of buf to the upper half and read sizeof (buf)/2
+         bytes into the lower half of buf and repeat until we
+         reach EOF.  We can assume that the timebase will be in
+         the last 512 bytes of cpuinfo, so two 512 byte half_bufs
+         will be sufficient to contain the timebase and will
+         handle the case where the timebase spans the half_buf
+         boundry.  */
+      const ssize_t half_buf = sizeof (buf) / 2;
+      while (n >= half_buf)
+	{
+	  memcpy (buf, buf + half_buf, half_buf);
+	  n = __read_nocancel (fd, buf + half_buf, half_buf);
+	}
+      if (n >= 0)
+	n += half_buf;
+    }
+  __close_nocancel (fd);
 
-      if (__glibc_likely (fd != -1))
+  if (__glibc_likely (n > 0))
+    {
+      char *mhz = memmem (buf, n, "timebase", 7);
+
+      if (__glibc_likely (mhz != NULL))
 	{
-	  /* The timebase will be in the 1st 1024 bytes for systems with up
-	     to 8 processors.  If the first read returns less then 1024
-	     bytes read,  we have the whole cpuinfo and can start the scan.
-	     Otherwise we will have to read more to insure we have the
-	     timebase value in the scan.  */
-	  char buf[1024];
-	  ssize_t n;
+	  char *endp = buf + n;
 
-	  n = __read (fd, buf, sizeof (buf));
-	  if (n == sizeof (buf))
-	    {
-	      /* We are here because the 1st read returned exactly sizeof
-	         (buf) bytes.  This implies that we are not at EOF and may
-	         not have read the timebase value yet.  So we need to read
-	         more bytes until we know we have EOF.  We copy the lower
-	         half of buf to the upper half and read sizeof (buf)/2
-	         bytes into the lower half of buf and repeat until we
-	         reach EOF.  We can assume that the timebase will be in
-	         the last 512 bytes of cpuinfo, so two 512 byte half_bufs
-	         will be sufficient to contain the timebase and will
-	         handle the case where the timebase spans the half_buf
-	         boundry.  */
-	      const ssize_t half_buf = sizeof (buf) / 2;
-	      while (n >= half_buf)
-		{
-		  memcpy (buf, buf + half_buf, half_buf);
-		  n = __read (fd, buf + half_buf, half_buf);
-		}
-	      if (n >= 0)
-		n += half_buf;
-	    }
+	  /* Search for the beginning of the string.  */
+	  while (mhz < endp && (*mhz < '0' || *mhz > '9') && *mhz != '\n')
+	    ++mhz;
 
-	  if (__builtin_expect (n, 1) > 0)
+	  while (mhz < endp && *mhz != '\n')
 	    {
-	      char *mhz = memmem (buf, n, "timebase", 7);
-
-	      if (__glibc_likely (mhz != NULL))
+	      if (*mhz >= '0' && *mhz <= '9')
 		{
-		  char *endp = buf + n;
-
-		  /* Search for the beginning of the string.  */
-		  while (mhz < endp && (*mhz < '0' || *mhz > '9')
-			 && *mhz != '\n')
-		    ++mhz;
-
-		  while (mhz < endp && *mhz != '\n')
-		    {
-		      if (*mhz >= '0' && *mhz <= '9')
-			{
-			  result *= 10;
-			  result += *mhz - '0';
-			}
-
-		      ++mhz;
-		    }
+		  result *= 10;
+		  result += *mhz - '0';
 		}
-	      timebase_freq = result;
+
+	      ++mhz;
 	    }
-	  __close (fd);
 	}
     }
+#endif
 
-  return timebase_freq;
+  return result;
 }