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Blame SOURCES/0313-ccpp-fast-dumping-and-abrt-core-limit.patch

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From 523792cfbbaf3a5e10cdcb46979739b36ac9c4dd Mon Sep 17 00:00:00 2001
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From: Martin Kutlak <mkutlak@redhat.com>
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Date: Wed, 26 Sep 2018 13:24:40 +0200
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Subject: [PATCH] ccpp: fast dumping and abrt core limit
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This commit introduces a new configuration option MaxCoreFileSize. The
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option will be compared to MaxCrashReportsSize and the minimum will be
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used as the limit for the size of the core dump file in a dump directory.
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This commit replaces the read once write twice algorithm with a tee + splice
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algorithm. tee() does zero copy - it should just increment counters -
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and splice() moves bytes between file descriptors without the need to
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copy them to user space. Basically the new algorithm is the same but
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without the need to copy data to user space. However, the original
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algorithm was testing the buffer for 0s and if the entire buffer was 0,
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then lseek() was performed instead of write(). The 0 check was there to
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make the dumping faster and this is no longer needed as the tee +
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splice is faster than the original read once write twice algorithm.
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Related: rhbz#1613236
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Signed-off-by: Martin Kutlak <mkutlak@redhat.com>
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---
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 doc/abrt-CCpp.conf.txt     |   5 +
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 src/hooks/CCpp.conf        |  10 +
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 src/hooks/abrt-hook-ccpp.c | 381 +++++++++++++++++++++++++------------
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 3 files changed, 274 insertions(+), 122 deletions(-)
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diff --git a/doc/abrt-CCpp.conf.txt b/doc/abrt-CCpp.conf.txt
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index dffa45dc2..2a626ec49 100644
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--- a/doc/abrt-CCpp.conf.txt
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+++ b/doc/abrt-CCpp.conf.txt
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@@ -19,6 +19,11 @@ MakeCompatCore = 'yes' / 'no' ...::
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    instead of the template.
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    For more information about naming core dump files see 'man 5 core'.
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+MaxCoreFileSize = 'a number in MiB' ...::
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+   This configuration option together with MaxCrashReportsSize set the limit on
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+   the size of dumped core file. The lower value of the both options is used as
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+   the effective limit. 0 is evaluated as unlimited for the both options.
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+
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 SaveBinaryImage = 'yes' / 'no' ...::
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    Do you want a copy of crashed binary be saved?
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    Useful, for example, when _deleted binary_ segfaults.
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diff --git a/src/hooks/CCpp.conf b/src/hooks/CCpp.conf
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index af31ed53c..48c8c2557 100644
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--- a/src/hooks/CCpp.conf
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+++ b/src/hooks/CCpp.conf
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@@ -9,6 +9,16 @@
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 # For more information about naming core dump files see 'man 5 core'.
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 MakeCompatCore = yes
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+# The option allows you to set limit for the core file size in MiB.
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+#
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+# This value is compared to value of the MaxCrashReportSize configuration
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+# option from (/etc/abrt.conf) and the lower value is used as the limit.
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+#
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+# If MaxCoreFileSize is 0 then the value of MaxCrashReportSize is the limit.
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+# If MaxCrashReportSize is 0 then the value of MaxCoreFileSize is the limit.
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+# If both values are 0 then the core file size is unlimited.
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+MaxCoreFileSize = 0
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+
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 # Do you want a copy of crashed binary be saved?
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 # (useful, for example, when _deleted binary_ segfaults)
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 SaveBinaryImage = no
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diff --git a/src/hooks/abrt-hook-ccpp.c b/src/hooks/abrt-hook-ccpp.c
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index cb4d1e0ce..ca4b61bf1 100644
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--- a/src/hooks/abrt-hook-ccpp.c
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+++ b/src/hooks/abrt-hook-ccpp.c
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@@ -31,6 +31,8 @@
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 #define  DUMP_SUID_UNSAFE 1
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 #define  DUMP_SUID_SAFE 2
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+#define KERNEL_PIPE_BUFFER_SIZE 65536
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+
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 static int g_user_core_flags;
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 static int g_need_nonrelative;
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@@ -54,100 +56,6 @@ static char* malloc_readlink(const char *linkname)
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     return NULL;
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 }
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-/* Custom version of copyfd_xyz,
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- * one which is able to write into two descriptors at once.
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- */
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-#define CONFIG_FEATURE_COPYBUF_KB 4
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-static off_t copyfd_sparse(int src_fd, int dst_fd1, int dst_fd2, off_t size2)
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-{
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-	off_t total = 0;
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-	int last_was_seek = 0;
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-#if CONFIG_FEATURE_COPYBUF_KB <= 4
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-	char buffer[CONFIG_FEATURE_COPYBUF_KB * 1024];
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-	enum { buffer_size = sizeof(buffer) };
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-#else
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-	char *buffer;
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-	int buffer_size;
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-
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-	/* We want page-aligned buffer, just in case kernel is clever
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-	 * and can do page-aligned io more efficiently */
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-	buffer = mmap(NULL, CONFIG_FEATURE_COPYBUF_KB * 1024,
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-			PROT_READ | PROT_WRITE,
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-			MAP_PRIVATE | MAP_ANON,
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-			/* ignored: */ -1, 0);
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-	buffer_size = CONFIG_FEATURE_COPYBUF_KB * 1024;
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-	if (buffer == MAP_FAILED) {
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-		buffer = alloca(4 * 1024);
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-		buffer_size = 4 * 1024;
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-	}
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-#endif
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-
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-	while (1) {
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-		ssize_t rd = safe_read(src_fd, buffer, buffer_size);
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-		if (!rd) { /* eof */
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-			if (last_was_seek) {
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-				if (lseek(dst_fd1, -1, SEEK_CUR) < 0
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-				 || safe_write(dst_fd1, "", 1) != 1
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-				 || (dst_fd2 >= 0
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-				     && (lseek(dst_fd2, -1, SEEK_CUR) < 0
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-					 || safe_write(dst_fd2, "", 1) != 1
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-				        )
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-				    )
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-				) {
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-					perror_msg("Write error");
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-					total = -1;
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-					goto out;
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-				}
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-			}
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-			/* all done */
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-			goto out;
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-		}
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-		if (rd < 0) {
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-			perror_msg("Read error");
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-			total = -1;
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-			goto out;
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-		}
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-
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-		/* checking sparseness */
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-		ssize_t cnt = rd;
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-		while (--cnt >= 0) {
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-			if (buffer[cnt] != 0) {
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-				/* not sparse */
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-				errno = 0;
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-				ssize_t wr1 = full_write(dst_fd1, buffer, rd);
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-				ssize_t wr2 = (dst_fd2 >= 0 ? full_write(dst_fd2, buffer, rd) : rd);
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-				if (wr1 < rd || wr2 < rd) {
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-					perror_msg("Write error");
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-					total = -1;
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-					goto out;
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-				}
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-				last_was_seek = 0;
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-				goto adv;
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-			}
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-		}
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-		/* sparse */
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-		xlseek(dst_fd1, rd, SEEK_CUR);
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-		if (dst_fd2 >= 0)
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-			xlseek(dst_fd2, rd, SEEK_CUR);
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-		last_was_seek = 1;
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- adv:
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-		total += rd;
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-		size2 -= rd;
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-		if (size2 < 0)
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-			dst_fd2 = -1;
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-// truncate to 0 or even delete the second file?
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-// No, kernel does not delete nor truncate core files.
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-	}
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- out:
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-
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-#if CONFIG_FEATURE_COPYBUF_KB > 4
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-	if (buffer_size != 4 * 1024)
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-		munmap(buffer, buffer_size);
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-#endif
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-	return total;
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-}
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-
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-
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 /* Global data */
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 static char *user_pwd;
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 static DIR *proc_cwd;
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@@ -609,13 +517,42 @@ static void create_core_backtrace(pid_t tid, const char *executable, int signal_
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 #endif /* ENABLE_DUMP_TIME_UNWIND */
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 }
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+static ssize_t splice_entire_per_partes(int in_fd, int out_fd, size_t size_limit)
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+{
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+    size_t bytes = 0;
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+    size_t soft_limit = KERNEL_PIPE_BUFFER_SIZE;
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+    while (bytes < size_limit)
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+    {
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+        const size_t hard_limit = size_limit - bytes;
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+        if (hard_limit < soft_limit)
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+            soft_limit = hard_limit;
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+
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+        const ssize_t copied = splice(in_fd, NULL, out_fd, NULL, soft_limit, SPLICE_F_MOVE | SPLICE_F_MORE);
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+        if (copied < 0)
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+            return copied;
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+
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+        bytes += copied;
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+
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+        /* Check EOF. */
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+        if (copied == 0)
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+            break;
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+    }
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+
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+    return bytes;
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+}
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+
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+
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 static int create_user_core(int user_core_fd, pid_t pid, off_t ulimit_c)
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 {
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     int err = 1;
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     if (user_core_fd >= 0)
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     {
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-        off_t core_size = copyfd_size(STDIN_FILENO, user_core_fd, ulimit_c, COPYFD_SPARSE);
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-        if (close_user_core(user_core_fd, core_size) != 0)
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+        errno = 0;
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+        ssize_t core_size = splice_entire_per_partes(STDIN_FILENO, user_core_fd, ulimit_c);
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+        if (core_size < 0)
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+            perror_msg("Failed to create user core '%s' in '%s'", core_basename, user_pwd);
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+
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+        if (close_user_core(user_core_fd, core_size) != 0 || core_size < 0)
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             goto finito;
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         err = 0;
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@@ -732,6 +669,165 @@ static void error_msg_ignore_crash(const char *pid_str, const char *process_str,
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     return;
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 }
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+static ssize_t splice_full(int in_fd, int out_fd, size_t size)
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+{
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+    ssize_t total = 0;
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+    while (size != 0)
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+    {
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+        const ssize_t b = splice(in_fd, NULL, out_fd, NULL, size, 0);
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+        if (b < 0)
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+            return b;
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+
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+        if (b == 0)
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+            break;
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+
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+        total += b;
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+        size -= b;
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+    }
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+
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+    return total;
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+}
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+
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+static size_t xsplice_full(int in_fd, int out_fd, size_t size)
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+{
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+    const ssize_t r = splice_full(in_fd, out_fd, size);
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+    if (r < 0)
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+        perror_msg_and_die("Failed to write core dump to file");
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+    return (size_t)r;
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+}
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+
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+static void pipe_close(int *pfds)
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+{
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+    close(pfds[0]);
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+    close(pfds[1]);
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+    pfds[0] = pfds[1] = -1;
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+}
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+
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+enum dump_core_files_ret_flags {
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+    DUMP_ABRT_CORE_FAILED  = 0x0001,
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+    DUMP_USER_CORE_FAILED  = 0x0100,
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+};
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+
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+/* Optimized creation of two core files - ABRT and CWD
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+ *
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+ * The simplest optimization is to avoid the need to copy data to user space.
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+ * In that case we cannot read data once and write them twice as we do with
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+ * read/write approach because there is no syscall forwarding data from a
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+ * single source fd to several destination fds (one might claim that there is
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+ * tee() function but such a solution is suboptimal from our perspective).
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+ *
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+ * So the function first create ABRT core file and then creates user core file.
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+ * If ABRT limit made the ABRT core to be smaller than allowed user core size,
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+ * then the function reads more data from STDIN and appends them to the user
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+ * core file.
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+ *
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+ * We must not read from the user core fd because that operation might be
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+ * refused by OS.
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+ */
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+static int dump_two_core_files(int abrt_core_fd, size_t *abrt_limit, int user_core_fd, size_t *user_limit)
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+{
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+   /* tee() does not move the in_fd, thus you need to call splice to be
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+    * get next chunk of data loaded into the in_fd buffer.
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+    * So, calling tee() without splice() would be looping on the same
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+    * data. Hence, we must ensure that after tee() we call splice() and
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+    * that would be problematic if tee core limit is greater than splice
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+    * core limit. Therefore, we swap the out fds based on their limits.
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+    */
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+    int    spliced_fd          = *abrt_limit > *user_limit ? abrt_core_fd    : user_core_fd;
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+    size_t spliced_core_limit  = *abrt_limit > *user_limit ? *abrt_limit     : *user_limit;
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+    int    teed_fd             = *abrt_limit > *user_limit ? user_core_fd    : abrt_core_fd;
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+    size_t teed_core_limit     = *abrt_limit > *user_limit ? *user_limit     : *abrt_limit;
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+
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+    size_t *spliced_core_size  = *abrt_limit > *user_limit ? abrt_limit : user_limit;
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+    size_t *teed_core_size     = *abrt_limit > *user_limit ? user_limit : abrt_limit;
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+
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+    *spliced_core_size = *teed_core_size = 0;
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+
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+    int cp[2] = { -1, -1 };
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+    if (pipe(cp) < 0)
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+    {
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+        perror_msg("Failed to create temporary pipe for core file");
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+        cp[0] = cp[1] = -1;
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+    }
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+
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+    /* tee() can copy duplicate up to size of the pipe buffer bytes.
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+     * It should not be problem to ask for more (in that case, tee would simply
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+     * duplicate up to the limit bytes) but I would rather not to exceed
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+     * the pipe buffer limit.
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+     */
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+    int copy_buffer_size = fcntl(STDIN_FILENO, F_GETPIPE_SZ);
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+    if (copy_buffer_size < 0)
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+        copy_buffer_size = KERNEL_PIPE_BUFFER_SIZE;
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+
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+    ssize_t to_write = copy_buffer_size;
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+    for (;;)
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+    {
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+        if (cp[1] >= 0)
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+        {
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+            to_write = tee(STDIN_FILENO, cp[1], copy_buffer_size, 0);
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+
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+            /* Check EOF. */
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+            if (to_write == 0)
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+                break;
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+
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+            if (to_write < 0)
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+            {
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+                perror_msg("Cannot duplicate stdin buffer for core file");
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+                pipe_close(cp);
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+                to_write = copy_buffer_size;
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+            }
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+        }
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+
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+        size_t to_splice = to_write;
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+        if (*spliced_core_size + to_splice > spliced_core_limit)
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+            to_splice = spliced_core_limit - *spliced_core_size;
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+
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+        const size_t spliced = xsplice_full(STDIN_FILENO, spliced_fd, to_splice);
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+        *spliced_core_size += spliced;
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+
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+        if (cp[0] >= 0)
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+        {
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+            size_t to_tee = to_write;
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+            if (*teed_core_size + to_tee > teed_core_limit)
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+                to_tee = teed_core_limit - *teed_core_size;
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+
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+            const ssize_t teed = splice_full(cp[0], teed_fd, to_tee);
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+            if (teed < 0)
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+            {
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+                perror_msg("Cannot splice teed data to core file");
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+                pipe_close(cp);
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+                to_write = copy_buffer_size;
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+            }
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+            else
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+                *teed_core_size += teed;
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+
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+            if (*teed_core_size >= teed_core_limit)
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+            {
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+                pipe_close(cp);
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+                to_write = copy_buffer_size;
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+            }
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+        }
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+
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+        /* Check EOF. */
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+        if (spliced == 0 || *spliced_core_size >= spliced_core_limit)
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+            break;
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+    }
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+
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+    int r = 0;
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+    if (cp[0] < 0)
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+    {
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+        if (abrt_limit < user_limit)
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+            r |= DUMP_ABRT_CORE_FAILED;
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+        else
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+            r |= DUMP_USER_CORE_FAILED;
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+    }
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+    else
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+        pipe_close(cp);
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+
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+    return r;
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+}
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+
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+
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 int main(int argc, char** argv)
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 {
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     int err = 1;
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@@ -755,6 +851,8 @@ int main(int argc, char** argv)
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     bool setting_SaveBinaryImage;
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     bool setting_SaveFullCore;
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     bool setting_CreateCoreBacktrace;
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+    unsigned int setting_MaxCoreFileSize = g_settings_nMaxCrashReportsSize;
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+
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     GList *setting_ignored_paths = NULL;
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     GList *setting_allowed_users = NULL;
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     GList *setting_allowed_groups = NULL;
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@@ -780,6 +878,18 @@ int main(int argc, char** argv)
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         if (value)
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             setting_allowed_groups = parse_list(value);
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+        value = get_map_string_item_or_NULL(settings, "MaxCoreFileSize");
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+        if (value)
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+        {
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+            char *end;
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+            errno = 0;
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+            unsigned long ul = strtoul(value, &end, 10);
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+            if (errno || end == value || *end != '\0' || ul > UINT_MAX)
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+                error_msg("The MaxCoreFileSize option in the CCpp.conf file holds an invalid value");
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+            else
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+                setting_MaxCoreFileSize = ul;
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+        }
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+
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         setting_CreateCoreBacktrace = value ? string_to_bool(value) : true;
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         value = get_map_string_item_or_NULL(settings, "VerboseLog");
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         if (value)
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@@ -1019,8 +1129,8 @@ int main(int argc, char** argv)
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         unlink(path);
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         int abrt_core_fd = xopen3(path, O_WRONLY | O_CREAT | O_EXCL, 0600);
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-        off_t core_size = copyfd_eof(STDIN_FILENO, abrt_core_fd, COPYFD_SPARSE);
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-        if (core_size < 0 || fsync(abrt_core_fd) != 0)
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+        off_t core_size = splice_entire_per_partes(STDIN_FILENO, abrt_core_fd, SIZE_MAX);
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+        if (core_size < 0 || fsync(abrt_core_fd) != 0 || close(abrt_core_fd) < 0)
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         {
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             unlink(path);
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             /* copyfd_eof logs the error including errno string,
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@@ -1133,31 +1243,58 @@ int main(int argc, char** argv)
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             close(src_fd_binary);
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         }
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-        off_t core_size = 0;
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+        size_t core_size = 0;
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         if (setting_SaveFullCore)
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         {
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-            strcpy(path + path_len, "/"FILENAME_COREDUMP);
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-            int abrt_core_fd = create_or_die(path, user_core_fd);
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-
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-            /* We write both coredumps at once.
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-             * We can't write user coredump first, since it might be truncated
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-             * and thus can't be copied and used as abrt coredump;
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-             * and if we write abrt coredump first and then copy it as user one,
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-             * then we have a race when process exits but coredump does not exist yet:
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-             * $ echo -e '#include<signal.h>\nmain(){raise(SIGSEGV);}' | gcc -o test -x c -
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-             * $ rm -f core*; ulimit -c unlimited; ./test; ls -l core*
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-             * 21631 Segmentation fault (core dumped) ./test
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-             * ls: cannot access core*: No such file or directory <=== BAD
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-             */
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-            core_size = copyfd_sparse(STDIN_FILENO, abrt_core_fd, user_core_fd, ulimit_c);
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-            close_user_core(user_core_fd, core_size);
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-            if (fsync(abrt_core_fd) != 0 || close(abrt_core_fd) != 0 || core_size < 0)
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+            int abrt_core_fd = dd_open_item(dd, FILENAME_COREDUMP, O_RDWR);
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+            if (abrt_core_fd < 0)
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+            {   /* Avoid the need to deal with two destinations. */
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+                perror_msg("Failed to create ABRT core file in '%s'", dd->dd_dirname);
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+                create_user_core(user_core_fd, pid, ulimit_c);
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+            }
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+            else
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             {
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-                unlink(path);
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-                dd_delete(dd);
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-                /* copyfd_sparse logs the error including errno string,
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-                 * but it does not log file name */
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-                error_msg_and_die("Error writing '%s'", path);
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+                size_t abrt_limit = 0;
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+                if (   (g_settings_nMaxCrashReportsSize != 0 && setting_MaxCoreFileSize == 0)
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+                    || (g_settings_nMaxCrashReportsSize != 0 && g_settings_nMaxCrashReportsSize < setting_MaxCoreFileSize))
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+                    abrt_limit = g_settings_nMaxCrashReportsSize;
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+                else
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+                    abrt_limit = setting_MaxCoreFileSize;
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+
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+                if (abrt_limit != 0)
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+                {
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+                    const size_t abrt_limit_bytes = 1024 * 1024 * abrt_limit;
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+                    /* Overflow protection. */
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+                    if (abrt_limit_bytes > abrt_limit)
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+                        abrt_limit = abrt_limit_bytes;
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+                    else
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+                    {
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+                        error_msg("ABRT core file size limit (MaxCrashReportsSize|MaxCoreFileSize) does not fit into runtime type. Using maximal possible size.");
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+                        abrt_limit = SIZE_MAX;
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+                    }
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+                }
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+                else
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+                    abrt_limit = SIZE_MAX;
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+
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+                if (user_core_fd < 0)
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+                {
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+                    const ssize_t r = splice_entire_per_partes(STDIN_FILENO, abrt_core_fd, abrt_limit);
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+                    if (r < 0)
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+                        perror_msg("Failed to write ABRT core file");
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+                    else
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+                        core_size = r;
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+                }
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+                else
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+                {
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+                    size_t user_limit = ulimit_c;
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+                    const int r = dump_two_core_files(abrt_core_fd, &abrt_limit, user_core_fd, &user_limit);
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+                    close_user_core(user_core_fd, (r & DUMP_USER_CORE_FAILED) ? -1 : user_limit);
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+                    if (!(r & DUMP_ABRT_CORE_FAILED))
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+                        core_size = abrt_limit;
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+                }
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+
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+                if (fsync(abrt_core_fd) != 0 || close(abrt_core_fd) != 0)
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+                    perror_msg("Failed to close ABRT core file");
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             }
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         }
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         else
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@@ -1223,8 +1360,8 @@ int main(int argc, char** argv)
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         free(newpath);
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         if (core_size > 0)
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-            log_notice("Saved core dump of pid %lu (%s) to %s (%llu bytes)",
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-                       (long)pid, executable, path, (long long)core_size);
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+            log_notice("Saved core dump of pid %lu (%s) to %s (%zu bytes)",
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+                       (long)pid, executable, path, core_size);
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         notify_new_path(path);
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-- 
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2.17.2
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