2 files changed, 1082 insertions, 0 deletions

diff --git a/src/vppinfra/string.c b/src/vppinfra/string.c
index b90f432c0cc..feae5b9165c 100644
--- a/src/vppinfra/string.c
+++ b/src/vppinfra/string.c
@@ -38,6 +38,12 @@
 #include <vppinfra/string.h>
 #include <vppinfra/error.h>
 
+/**
+ * @file
+ * @brief String Handling routines, including a performant
+ * implementation of many c-11 "safe" string functions.
+ */
+
 /* Exchanges source and destination. */
 void
 clib_memswap (void *_a, void *_b, uword bytes)
@@ -91,6 +97,25 @@ clib_c11_violation (const char *s)
   _clib_error (CLIB_ERROR_WARNING, (char *) __FUNCTION__, 0, (char *) s);
 }
 
+/**
+ * @brief copy src to dest, at most n bytes, up to dmax
+ *
+ *        ISO/IEC 9899:2017(C11), Porgramming languages -- C
+ *        Annex K; Bounds-checking interfaces
+ *
+ * @param *dest  pointer to memory to copy to
+ * @param dmax   maximum length of resulting dest
+ * @param *src   pointer to memory to copy from
+ * @param n      maximum number of characters to copy from src
+ *
+ * @constraints  No null pointers
+ *               n shall not be greater than dmax
+ *               no memory overlap between src and dest
+ *
+ * @return EOK        success
+ *         EINVAL     runtime constraint error
+ *
+ */
 errno_t
 memcpy_s (void *__restrict__ dest, rsize_t dmax,
 	  const void *__restrict__ src, rsize_t n)
@@ -98,12 +123,356 @@ memcpy_s (void *__restrict__ dest, rsize_t dmax,
   return memcpy_s_inline (dest, dmax, src, n);
 }
 
+/**
+ * @brief set n bytes starting at s to the specified c value
+ *
+ *        ISO/IEC 9899:2017(C11), Porgramming languages -- C
+ *        Annex K; Bounds-checking interfaces
+ *
+ * @param *s     pointer to memory to set the c value
+ * @param smax   maximum length of resulting s
+ * @param c      byte value
+ * @param n      maximum number of characters to set in s
+ *
+ * @constraints  No null pointers
+ *               n shall not be greater than smax
+ *
+ * @return EOK        success
+ *         EINVAL     runtime constraint error
+ *
+ */
 errno_t
 memset_s (void *s, rsize_t smax, int c, rsize_t n)
 {
   return memset_s_inline (s, smax, c, n);
 }
 
+/**
+ * @brief compare memory until they differ, and their difference is returned in
+ *        diff
+ *
+ *        ISO/IEC 9899:2017(C11), Porgramming languages -- C
+ *        Annex K; Bounds-checking interfaces
+ *
+ * @param *s1     pointer to memory to compare against
+ * @param s1max   maximum length of s1
+ * @param *s2     pointer to memory to compare with s1
+ * @param s2max   length of s2
+ * @param *diff   pointer to the diff which is an integer greater than, equal to,
+ *                or less than zero according to s1 is greater than, equal to,
+ *                or less than s2.
+ *
+ * @constraints   No null pointers
+ *                s1max and s2max shall not be zero
+ *                s2max shall not be greater than s1max
+ *
+ * @return EOK    success
+ *         diff   when the return code is EOK
+ *         >0     s1 greater s2
+ *          0     s1 == s2
+ *         <0     s1 < s2
+ *         EINVAL runtime constraint error
+ *
+ */
+errno_t
+memcmp_s (const void *s1, rsize_t s1max, const void *s2, rsize_t s2max,
+	  int *diff)
+{
+  return memcmp_s_inline (s1, s1max, s2, s2max, diff);
+}
+
+/**
+ * @brief compare string s2 to string s1, and their difference is returned in
+ *        indicator
+ *
+ *        ISO/IEC 9899:2017(C11), Porgramming languages -- C
+ *        Annex K; Bounds-checking interfaces
+ *
+ * @param *s1     pointer to string to compare against
+ * @param s1max   maximum length of s1, excluding null
+ * @param *s2     pointer to string to compare with s1
+ * @param *indicator  pointer to the comparison result, which is an integer
+ *                    greater than, equal to, or less than zero according to
+ *                    s1 is greater than, equal to, or less than s2.
+ *
+ * @constraints   No null pointers
+ *                s1max shall not be zero
+ *                s1 shall be null terminated
+ *                n shall not be greater than the smaller of s1max and strlen
+ *                of s1
+ *
+ * @return EOK        success
+ *         indicator  when the return code is EOK
+ *         >0         s1 greater s2
+ *          0         s1 == s2
+ *         <0         s1 < s2
+ *         EINVAL     runtime constraint error
+ *
+ */
+errno_t
+strcmp_s (const char *s1, rsize_t s1max, const char *s2, int *indicator)
+{
+  return strcmp_s_inline (s1, s1max, s2, indicator);
+}
+
+/**
+ * @brief compare string s2 to string s1, no more than n characters, and their
+ *        difference is returned in indicator
+ *
+ *        ISO/IEC 9899:2017(C11), Porgramming languages -- C
+ *        Annex K; Bounds-checking interfaces
+ *
+ * @param *s1     pointer to string to compare against
+ * @param s1max   maximum length of s1, excluding null
+ * @param *s2     pointer to string to compare with s1
+ * @param n       maximum number of characters to compare
+ * @param *indicator  pointer to the comparison result, which is an integer
+ *                    greater than, equal to, or less than zero according to
+ *                    s1 is greater than, equal to, or less than s2.
+ *
+ * @constraints   No null pointers
+ *                s1max shall not be zero
+ *                s1 shall be null terminated
+ *
+ * @return EOK        success
+ *         indicator  when the return code is EOK
+ *         >0         s1 greater s2
+ *          0         s1 == s2
+ *         <0         s1 < s2
+ *         EINVAL     runtime constraint error
+ *
+ */
+errno_t
+strncmp_s (const char *s1, rsize_t s1max, const char *s2, rsize_t n,
+	   int *indicator)
+{
+  return strncmp_s_inline (s1, s1max, s2, n, indicator);
+}
+
+/**
+ * @brief copy src string to dest string
+ *
+ *        ISO/IEC 9899:2017(C11), Porgramming languages -- C
+ *        Annex K; Bounds-checking interfaces
+ *
+ * @param *dest  pointer to string to copy to
+ * @param dmax   maximum length of resulting dest string, including null
+ * @param *src   pointer to string to copy from
+ *
+ * @constraints  No null pointers
+ *               dmax shall not be zero
+ *               dmax shall be greater than string length of src
+ *               no memory overlap between src and dest
+ *
+ * @return EOK        success
+ *         EINVAL     runtime constraint error
+ *
+ */
+errno_t
+strcpy_s (char *__restrict__ dest, rsize_t dmax, const char *__restrict__ src)
+{
+  return strcpy_s_inline (dest, dmax, src);
+}
+
+/**
+ * @brief copy src string to dest string, no more than n characters
+ *
+ *        ISO/IEC 9899:2017(C11), Porgramming languages -- C
+ *        Annex K; Bounds-checking interfaces
+ *
+ * @param *dest  pointer to string to copy to
+ * @param dmax   maximum length of resulting dest string, including null
+ * @param *src   pointer to string to copy from
+ * @param n      maximum number of characters to copy from src, excluding null
+ *
+ * @constraints  No null pointers
+ *               dmax shall not be zero
+ *               no memory overlap between src and dest
+ *
+ * @return EOK        success
+ *         EINVAL     runtime constraint error
+ *         EOVERFLOW  truncated operation. dmax - 1 characters were copied.
+ *                    dest is null terminated.
+ *
+ */
+errno_t
+strncpy_s (char *__restrict__ dest, rsize_t dmax,
+	   const char *__restrict__ src, rsize_t n)
+{
+  return strncpy_s_inline (dest, dmax, src, n);
+}
+
+/**
+ * @brief append src string to dest string, including null
+ *
+ *        ISO/IEC 9899:2017(C11), Porgramming languages -- C
+ *        Annex K; Bounds-checking interfaces
+ *
+ * @param *dest  pointer to string to append to
+ * @param dmax   maximum length of resulting dest string, including null
+ * @param *src   pointer to string to append from
+ *
+ * @constraints  No null pointers
+ *               dmax shall not be zero
+ *               dest shall be null terminated
+ *               given m = dmax - strnlen (dest, dmax)
+ *                     n = strnlen (src, m)
+ *                        n shall not be >= m
+ *               no memory overlap between src and dest
+ *
+ * @return EOK        success
+ *         EINVAL     runtime constraint error
+ *
+ */
+errno_t
+strcat_s (char *__restrict__ dest, rsize_t dmax, const char *__restrict__ src)
+{
+  return strcat_s_inline (dest, dmax, src);
+}
+
+/**
+ * @brief append src string to dest string, including null, no more than n
+ *        characters
+ *
+ *        ISO/IEC 9899:2017(C11), Porgramming languages -- C
+ *        Annex K; Bounds-checking interfaces
+ *
+ * @param *dest  pointer to string to append to
+ * @param dmax   maximum length of resulting dest string, including null
+ * @param *src   pointer to string to append from
+ * @param n      maximum characters to append (excluding null)
+ *
+ * @constraints  No null pointers
+ *               dmax shall not be zero
+ *               dest shall be null terminated
+ *               dmax - strnlen (dest, dmax) shall not be zero
+ *               no memory overlap between src and dest
+ *
+ * @return EOK        success
+ *         EINVAL     runtime constraint error
+ *         EOVERFLOW  truncated operation. dmax - 1 characters were appended.
+ *                    dest is null terminated.
+ *
+ */
+errno_t
+strncat_s (char *__restrict__ dest, rsize_t dmax,
+	   const char *__restrict__ src, rsize_t n)
+{
+  return strncat_s_inline (dest, dmax, src, n);
+}
+
+/**
+ * @brief tokenize string s1 with delimiter specified in s2. This is a stateful
+ *        API when it is iterately called, it returns the next token from s1
+ *        which is delimited by s2. s1max and ptr maintain the stateful
+ *        information for the same caller and must not be altered by the
+ *        caller during the iteration for the correct result
+ *
+ *        ISO/IEC 9899:2017(C11), Porgramming languages -- C
+ *        Annex K; Bounds-checking interfaces
+ *
+ * @param *s1         pointer to string to be searched for substring
+ * @param *s1max      restricted maximum length of s1
+ * @param *s2         pointer to substring to search (16 characters max,
+ *                    including null)
+ * @param **ptr       in/out pointer which maintains the stateful information
+ *
+ * @constraints  s2, s1max, and ptr shall not be null
+ *               if s1 is null, contents of ptr shall not be null
+ *               s1 and s2 shall be null terminated
+ *
+ * @return non-null  pointer to the first character of a token
+ *         s1max and ptr are modified to contain the state
+ *         null      runtime constraint error or token is not found
+ *
+ * @example
+ *   char *str2 = " ";
+ *   char str1[100];
+ *   uword len;
+ *   char *p2str = 0;
+ *   char *tok1, *tok2, *tok3, *tok4, *tok5, *tok6, *tok7;
+ *
+ *   strncpy (str1, "brevity is the soul of wit", sizeof (str1));
+ *   len = strlen (str1);
+ *   tok1 = strtok_s (str1, &len, str2, &p2str);
+ *   tok2 = strtok_s (0, &len, str2, &p2str);
+ *   tok3 = strtok_s (0, &len, str2, &p2str);
+ *   tok4 = strtok_s (0, &len, str2, &p2str);
+ *   tok5 = strtok_s (0, &len, str2, &p2str);
+ *   tok6 = strtok_s (0, &len, str2, &p2str);
+ *   tok7 = strtok_s (0, &len, str2, &p2str);
+ *
+ * After the above series of calls,
+ *   tok1 = "brevity", tok2 = "is", tok3 = "the", tok4 = "soul", tok5 = "of",
+ *   tok6 = "wit", tok7 = null
+ */
+char *
+strtok_s (char *__restrict__ s1, rsize_t * __restrict__ s1max,
+	  const char *__restrict__ s2, char **__restrict__ ptr)
+{
+  return strtok_s_inline (s1, s1max, s2, ptr);
+}
+
+/**
+ * @brief compute the length in s, no more than maxsize
+ *
+ *        ISO/IEC 9899:2017(C11), Porgramming languages -- C
+ *        Annex K; Bounds-checking interfaces
+ *
+ * @param *s      pointer to string
+ * @param maxsize restricted maximum length
+ *
+ * @constraints   No null pointers
+ *                maxsize shall not be zero
+ *
+ * @return size_t the string length in s, excluding null character, and no
+ *                more than maxsize or 0 if there is a constraint error
+ *
+ */
+size_t
+strnlen_s (const char *s, size_t maxsize)
+{
+  return strnlen_s_inline (s, maxsize);
+}
+
+/**
+ * @brief locate the first occurrence of the substring s2 in s1
+ *
+ *        ISO/IEC 9899:2017(C11), Porgramming languages -- C
+ *        Annex K; Bounds-checking interfaces
+ *
+ * @param *s1         pointer to string to be searched for substring
+ * @param s1max       restricted maximum length of s1
+ * @param *s2         pointer to substring to search
+ * @param s2max       restricted maximum length of s2
+ * @param **substring pointer to pointer substring to be returned
+ *
+ * @constraints  No null pointers
+ *               s1max and s2max shall not be zero
+ *               s1 and s2 shall be null terminated
+ *
+ * @return EOK    success
+ *         substring when the return code is EOK, it contains the pointer which
+ *         points to s1 that matches s2
+ *         EINVAL runtime constraint error
+ *         ESRCH  no match
+ *
+ * @example
+ *   char *sub = 0;
+ *   char *s1 = "success is not final, failure is not fatal.";
+ *
+ *   strstr_s (s1, strlen (s1), "failure", strlen ("failure"), &sub);
+ *
+ * After the above call,
+ *   sub = "failure is not fatal."
+ */
+errno_t
+strstr_s (char *s1, rsize_t s1max, const char *s2, rsize_t s2max,
+	  char **substring)
+{
+  return strstr_s_inline (s1, s1max, s2, s2max, substring);
+}
+
 /*
  * fd.io coding-style-patch-verification: ON
  *
diff --git a/src/vppinfra/string.h b/src/vppinfra/string.h
index b00c0cfbcc2..a25d461868b 100644
--- a/src/vppinfra/string.h
+++ b/src/vppinfra/string.h
@@ -92,6 +92,23 @@ void clib_memswap (void *_a, void *_b, uword bytes);
 #ifndef EINVAL
 #define EINVAL 22
 #endif
+#ifndef ESRCH
+#define ESRCH 3
+#endif
+#ifndef EOVERFLOW
+#define EOVERFLOW 75
+#endif
+
+/*
+ * In order to provide smooth mapping from unsafe string API to the clib string
+ * macro, we often have to improvise s1max and s2max due to the additional
+ * arguments are required for implementing the safe API. This macro is used
+ * to provide the s1max/s2max. It is not perfect becuase the actual
+ * s1max/s2max may be greater than 4k and the mapping from the unsafe API to
+ * the macro would cause a regression. However, it is not terribly likely.
+ * So I bet against the odds.
+ */
+#define CLIB_STRING_MACRO_MAX 4096
 
 typedef int errno_t;
 typedef uword rsize_t;
@@ -693,6 +710,702 @@ clib_count_equal_u8 (u8 * data, uword max_count)
   return count;
 }
 
+/*
+ * This macro is to provide smooth mapping from memcmp to memcmp_s.
+ * memcmp has fewer parameters and fewer returns than memcmp_s.
+ * This macro is somewhat a crutch. When err != EOK is returned from memcmp_s,
+ * we return 0 and spit out a message in the console because there is
+ * no way to return the error code to the memcmp callers.
+ * This condition happens when s1 or s2 is null. Please note
+ * in the extant memcmp calls, if s1, s2, or both are null, memcmp returns 0
+ * anyway. So we are consistent in this case for the comparison return
+ * although we also spit out a C11 violation message in the console to
+ * warn that they pass null pointers for both s1 and s2.
+ * Applications are encouraged to use the cool C11 memcmp_s API to get the
+ * maximum benefit out of it.
+ */
+#define clib_memcmp(s1,s2,m1) \
+  ({ int __diff = 0;				       \
+    memcmp_s_inline (s1, m1, s2, m1, &__diff);	\
+    __diff; \
+  })
+
+errno_t memcmp_s (const void *s1, rsize_t s1max, const void *s2,
+		  rsize_t s2max, int *diff);
+
+always_inline errno_t
+memcmp_s_inline (const void *s1, rsize_t s1max, const void *s2, rsize_t s2max,
+		 int *diff)
+{
+  u8 bad;
+
+  bad = (s1 == 0) + (s2 == 0) + (diff == 0) + (s2max > s1max) + (s2max == 0) +
+    (s1max == 0);
+
+  if (PREDICT_FALSE (bad != 0))
+    {
+      if (s1 == NULL)
+	clib_c11_violation ("s1 NULL");
+      if (s2 == NULL)
+	clib_c11_violation ("s2 NULL");
+      if (diff == NULL)
+	clib_c11_violation ("diff NULL");
+      if (s2max > s1max)
+	clib_c11_violation ("s2max > s1max");
+      if (s2max == 0)
+	clib_c11_violation ("s2max 0");
+      if (s1max == 0)
+	clib_c11_violation ("s1max 0");
+      return EINVAL;
+    }
+
+  if (PREDICT_FALSE (s1 == s2))
+    {
+      *diff = 0;
+      return EOK;
+    }
+
+  *diff = memcmp (s1, s2, s2max);
+  return EOK;
+}
+
+/*
+ * This macro is to provide smooth mapping from strnlen to strnlen_s
+ */
+#define clib_strnlen(s,m) strnlen_s_inline(s,m)
+
+size_t strnlen_s (const char *s, size_t maxsize);
+
+always_inline size_t
+strnlen_s_inline (const char *s, size_t maxsize)
+{
+  u8 bad;
+
+  bad = (s == 0) + (maxsize == 0);
+  if (PREDICT_FALSE (bad != 0))
+    {
+      if (s == 0)
+	clib_c11_violation ("s NULL");
+      if (maxsize == 0)
+	clib_c11_violation ("maxsize 0");
+      return 0;
+    }
+  return strnlen (s, maxsize);
+}
+
+/*
+ * This macro is to provide smooth mapping from strcmp to strcmp_s.
+ * strcmp has fewer parameters and fewer returns than strcmp_s.
+ * This macro is somewhat a crutch. When err != EOK is returned from strcmp_s,
+ * we return 0 and spit out a message in the console because
+ * there is no way to return the error to the strcmp callers.
+ * This condition happens when s1 or s2 is null. Please note in the extant
+ * strcmp call, they would end up crashing if one of them is null.
+ * So the new behavior is no crash, but an error is displayed in the
+ * console which I think is more user friendly. If both s1 and s2 are null,
+ * strcmp returns 0. Obviously, strcmp did the pointers comparison prior
+ * to actually accessing the pointer contents. We are still consistent
+ * in this case for the comparison return although we also spit out a
+ * C11 violation message in the console to warn that they pass null pointers
+ * for both s1 and s2. The other problem is strcmp does not provide s1max,
+ * we use CLIB_STRING_MACRO_MAX and hopefully, s1 is null terminated.
+ * If not, we may be accessing memory beyonf what is intended.
+ * Applications are encouraged to use the cool C11 strcmp_s API to get the
+ * maximum benefit out of it.
+ */
+#define clib_strcmp(s1,s2) \
+  ({ int __indicator = 0; \
+    strcmp_s_inline (s1, CLIB_STRING_MACRO_MAX, s2, &__indicator);	\
+    __indicator;			\
+  })
+
+errno_t strcmp_s (const char *s1, rsize_t s1max, const char *s2,
+		  int *indicator);
+
+always_inline errno_t
+strcmp_s_inline (const char *s1, rsize_t s1max, const char *s2,
+		 int *indicator)
+{
+  u8 bad;
+
+  bad = (indicator == 0) + (s1 == 0) + (s2 == 0) + (s1max == 0) +
+    (s1 && s1max && s1[clib_strnlen (s1, s1max)] != '\0');
+
+  if (PREDICT_FALSE (bad != 0))
+    {
+      if (indicator == NULL)
+	clib_c11_violation ("indicator NULL");
+      if (s1 == NULL)
+	clib_c11_violation ("s1 NULL");
+      if (s2 == NULL)
+	clib_c11_violation ("s2 NULL");
+      if (s1max == 0)
+	clib_c11_violation ("s1max 0");
+      if (s1 && s1max && s1[clib_strnlen (s1, s1max)] != '\0')
+	clib_c11_violation ("s1 unterminated");
+      return EINVAL;
+    }
+
+  *indicator = strcmp (s1, s2);
+  return EOK;
+}
+
+/*
+ * This macro is to provide smooth mapping from strncmp to strncmp_s.
+ * strncmp has fewer parameters and fewer returns than strncmp_s. That said,
+ * this macro is somewhat a crutch. When we get err != EOK from strncmp_s,
+ * we return 0 and spit out a message in the console because there is no
+ * means to return the error to the strncmp caller.
+ * This condition happens when s1 or s2 is null. In the extant strncmp call,
+ * they would end up crashing if one of them is null. So the new behavior is
+ * no crash, but error is displayed in the console which is more
+ * user friendly. If s1 and s2 are null, strncmp returns 0. Obviously,
+ * strncmp did the pointers comparison prior to actually accessing the
+ * pointer contents. We are still consistent in this case for the comparison
+ * return although we also spit out a C11 violation message in the console to
+ * warn that they pass null pointers for both s1 and s2.
+ * Applications are encouraged to use the cool C11 strncmp_s API to get the
+ * maximum benefit out of it.
+ */
+#define clib_strncmp(s1,s2,n) \
+  ({ int __indicator = 0; \
+    strncmp_s_inline (s1, CLIB_STRING_MACRO_MAX, s2, n, &__indicator);	\
+    __indicator;			\
+  })
+
+errno_t strncmp_s (const char *s1, rsize_t s1max, const char *s2, rsize_t n,
+		   int *indicator);
+
+always_inline errno_t
+strncmp_s_inline (const char *s1, rsize_t s1max, const char *s2, rsize_t n,
+		  int *indicator)
+{
+  u8 bad;
+  u8 s1_greater_s1max = (s1 && s1max && n > clib_strnlen (s1, s1max));
+
+  if (PREDICT_FALSE (s1_greater_s1max && indicator))
+    {
+      /*
+       * strcmp allows n > s1max. If indicator is non null, we can still
+       * do the compare without any harm and return EINVAL as well as the
+       * result in indicator.
+       */
+      clib_c11_violation ("n exceeds s1 length");
+      *indicator = strncmp (s1, s2, n);
+      return EINVAL;
+    }
+
+  bad = (s1 == 0) + (s2 == 0) + (indicator == 0) + (s1max == 0) +
+    (s1 && s1max && s1[clib_strnlen (s1, s1max)] != '\0') + s1_greater_s1max;
+
+  if (PREDICT_FALSE (bad != 0))
+    {
+      if (indicator == NULL)
+	clib_c11_violation ("indicator NULL");
+      if (s1 == NULL)
+	clib_c11_violation ("s1 NULL");
+      if (s2 == NULL)
+	clib_c11_violation ("s2 NULL");
+      if (s1max == 0)
+	clib_c11_violation ("s1max 0");
+      if (s1 && s1max && s1[clib_strnlen (s1, s1max)] != '\0')
+	clib_c11_violation ("s1 unterminated");
+      if (s1_greater_s1max)
+	clib_c11_violation ("n exceeds s1 length");
+      return EINVAL;
+    }
+
+  *indicator = strncmp (s1, s2, n);
+  return EOK;
+}
+
+/*
+ * This macro is provided for smooth migration from strcpy. It is not perfect
+ * because we don't know the size of the destination buffer to pass to strcpy_s.
+ * We improvise dmax with CLIB_STRING_MACRO_MAX.
+ * Applications are encouraged to move to the C11 strcpy_s API.
+ */
+#define clib_strcpy(d,s) strcpy_s_inline(d,CLIB_STRING_MACRO_MAX,s)
+
+errno_t strcpy_s (char *__restrict__ dest, rsize_t dmax,
+		  const char *__restrict__ src);
+
+always_inline errno_t
+strcpy_s_inline (char *__restrict__ dest, rsize_t dmax,
+		 const char *__restrict__ src)
+{
+  u8 bad;
+  uword low, hi;
+  size_t n;
+
+  bad = (dest == 0) + (dmax == 0) + (src == 0);
+  if (PREDICT_FALSE (bad != 0))
+    {
+      if (dest == 0)
+	clib_c11_violation ("dest NULL");
+      if (src == 0)
+	clib_c11_violation ("src NULL");
+      if (dmax == 0)
+	clib_c11_violation ("dmax 0");
+      return EINVAL;
+    }
+
+  n = clib_strnlen (src, dmax);
+  if (PREDICT_FALSE (n >= dmax))
+    {
+      clib_c11_violation ("not enough space for dest");
+      return (EINVAL);
+    }
+  /* Not actually trying to copy anything is OK */
+  if (PREDICT_FALSE (n == 0))
+    return EOK;
+
+  /* Check for src/dst overlap, which is not allowed */
+  low = (uword) (src < dest ? src : dest);
+  hi = (uword) (src < dest ? dest : src);
+
+  if (PREDICT_FALSE (low + (n - 1) >= hi))
+    {
+      clib_c11_violation ("src/dest overlap");
+      return EINVAL;
+    }
+
+  clib_memcpy_fast (dest, src, n);
+  dest[n] = '\0';
+  return EOK;
+}
+
+/*
+ * This macro is provided for smooth migration from strncpy. It is not perfect
+ * because we don't know the size of the destination buffer to pass to
+ * strncpy_s. We improvise dmax with CLIB_STRING_MACRO_MAX.
+ * Applications are encouraged to move to the C11 strncpy_s API and provide
+ * the correct dmax for better error checking.
+ */
+#define clib_strncpy(d,s,n) strncpy_s_inline(d,CLIB_STRING_MACRO_MAX,s,n)
+
+errno_t
+strncpy_s (char *__restrict__ dest, rsize_t dmax,
+	   const char *__restrict__ src, rsize_t n);
+
+always_inline errno_t
+strncpy_s_inline (char *__restrict__ dest, rsize_t dmax,
+		  const char *__restrict__ src, rsize_t n)
+{
+  u8 bad;
+  uword low, hi;
+  rsize_t m;
+  errno_t status = EOK;
+
+  bad = (dest == 0) + (dmax == 0) + (src == 0) + (n == 0);
+  if (PREDICT_FALSE (bad != 0))
+    {
+      /* Not actually trying to copy anything is OK */
+      if (n == 0)
+	return EOK;
+      if (dest == 0)
+	clib_c11_violation ("dest NULL");
+      if (src == 0)
+	clib_c11_violation ("src NULL");
+      if (dmax == 0)
+	clib_c11_violation ("dmax 0");
+      return EINVAL;
+    }
+
+  if (PREDICT_FALSE (n >= dmax))
+    {
+      /* Relax and use strnlen of src */
+      clib_c11_violation ("n >= dmax");
+      m = clib_strnlen (src, dmax);
+      if (m >= dmax)
+	{
+	  /* Truncate, adjust copy length to fit dest */
+	  m = dmax - 1;
+	  status = EOVERFLOW;
+	}
+    }
+  else
+    m = n;
+
+  /* Check for src/dst overlap, which is not allowed */
+  low = (uword) (src < dest ? src : dest);
+  hi = (uword) (src < dest ? dest : src);
+
+  if (PREDICT_FALSE (low + (m - 1) >= hi))
+    {
+      clib_c11_violation ("src/dest overlap");
+      return EINVAL;
+    }
+
+  clib_memcpy_fast (dest, src, m);
+  dest[m] = '\0';
+  return status;
+}
+
+/*
+ * This macro is to provide smooth migration from strcat to strcat_s.
+ * Because there is no dmax in strcat, we improvise it with
+ * CLIB_STRING_MACRO_MAX. Please note there may be a chance to overwrite dest
+ * with too many bytes from src.
+ * Applications are encouraged to use C11 API to provide the actual dmax
+ * for proper checking and protection.
+ */
+#define clib_strcat(d,s) strcat_s_inline(d,CLIB_STRING_MACRO_MAX,s)
+
+errno_t strcat_s (char *__restrict__ dest, rsize_t dmax,
+		  const char *__restrict__ src);
+
+always_inline errno_t
+strcat_s_inline (char *__restrict__ dest, rsize_t dmax,
+		 const char *__restrict__ src)
+{
+  u8 bad;
+  uword low, hi;
+  size_t m, n, dest_size;
+
+  bad = (dest == 0) + (dmax == 0) + (src == 0);
+  if (PREDICT_FALSE (bad != 0))
+    {
+      if (dest == 0)
+	clib_c11_violation ("dest NULL");
+      if (src == 0)
+	clib_c11_violation ("src NULL");
+      if (dmax == 0)
+	clib_c11_violation ("dmax 0");
+      return EINVAL;
+    }
+
+  dest_size = clib_strnlen (dest, dmax);
+  m = dmax - dest_size;
+  n = clib_strnlen (src, m);
+  if (PREDICT_FALSE (n >= m))
+    {
+      clib_c11_violation ("not enough space for dest");
+      return EINVAL;
+    }
+
+  /* Not actually trying to concatenate anything is OK */
+  if (PREDICT_FALSE (n == 0))
+    return EOK;
+
+  /* Check for src/dst overlap, which is not allowed */
+  low = (uword) (src < dest ? src : dest);
+  hi = (uword) (src < dest ? dest : src);
+
+  if (PREDICT_FALSE (low + (n - 1) >= hi))
+    {
+      clib_c11_violation ("src/dest overlap");
+      return EINVAL;
+    }
+
+  clib_memcpy_fast (dest + dest_size, src, n);
+  dest[dest_size + n] = '\0';
+  return EOK;
+}
+
+/*
+ * This macro is to provide smooth migration from strncat to strncat_s.
+ * The unsafe strncat does not have s1max. We improvise it with
+ * CLIB_STRING_MACRO_MAX. Please note there may be a chance to overwrite
+ * dest with too many bytes from src.
+ * Applications are encouraged to move to C11 strncat_s which requires dmax
+ * from the caller and provides checking to safeguard the memory corruption.
+ */
+#define clib_strncat(d,s,n) strncat_s_inline(d,CLIB_STRING_MACRO_MAX,s,n)
+
+errno_t strncat_s (char *__restrict__ dest, rsize_t dmax,
+		   const char *__restrict__ src, rsize_t n);
+
+always_inline errno_t
+strncat_s_inline (char *__restrict__ dest, rsize_t dmax,
+		  const char *__restrict__ src, rsize_t n)
+{
+  u8 bad;
+  uword low, hi;
+  size_t m, dest_size, allowed_size;
+  errno_t status = EOK;
+
+  bad = (dest == 0) + (src == 0) + (dmax == 0) + (n == 0);
+  if (PREDICT_FALSE (bad != 0))
+    {
+      /* Not actually trying to concatenate anything is OK */
+      if (n == 0)
+	return EOK;
+      if (dest == 0)
+	clib_c11_violation ("dest NULL");
+      if (src == 0)
+	clib_c11_violation ("src NULL");
+      if (dmax == 0)
+	clib_c11_violation ("dmax 0");
+      return EINVAL;
+    }
+
+  /* Check for src/dst overlap, which is not allowed */
+  low = (uword) (src < dest ? src : dest);
+  hi = (uword) (src < dest ? dest : src);
+
+  if (PREDICT_FALSE (low + (n - 1) >= hi))
+    {
+      clib_c11_violation ("src/dest overlap");
+      return EINVAL;
+    }
+
+  dest_size = clib_strnlen (dest, dmax);
+  allowed_size = dmax - dest_size;
+
+  if (PREDICT_FALSE (allowed_size == 0))
+    {
+      clib_c11_violation ("no space left in dest");
+      return (EINVAL);
+    }
+
+  if (PREDICT_FALSE (n >= allowed_size))
+    {
+      /*
+       * unlike strcat_s, strncat_s will do the concatenation anyway when
+       * there is not enough space in dest. But it will do the truncation and
+       * null terminate dest
+       */
+      m = clib_strnlen (src, allowed_size);
+      if (m >= allowed_size)
+	{
+	  m = allowed_size - 1;
+	  status = EOVERFLOW;
+	}
+    }
+  else
+    m = clib_strnlen (src, n);
+
+  clib_memcpy_fast (dest + dest_size, src, m);
+  dest[dest_size + m] = '\0';
+  return status;
+}
+
+/*
+ * This macro is to provide smooth mapping from strtok_r to strtok_s.
+ * To map strtok to this macro, the caller would have to supply an additional
+ * argument. strtokr_s requires s1max which the unsafe API does not have. So
+ * we have to improvise it with CLIB_STRING_MACRO_MAX. Unlike strtok_s,
+ * this macro cannot catch unterminated s1 and s2.
+ * Applications are encouraged to use the cool C11 strtok_s API to avoid
+ * these problems.
+ */
+#define clib_strtok(s1,s2,p)		   \
+  ({ rsize_t __s1max = CLIB_STRING_MACRO_MAX;	\
+    strtok_s_inline (s1, &__s1max, s2, p);		\
+  })
+
+char *strtok_s (char *__restrict__ s1, rsize_t * __restrict__ s1max,
+		const char *__restrict__ s2, char **__restrict__ ptr);
+
+always_inline char *
+strtok_s_inline (char *__restrict__ s1, rsize_t * __restrict__ s1max,
+		 const char *__restrict__ s2, char **__restrict__ ptr)
+{
+#define STRTOK_DELIM_MAX_LEN 16
+  u8 bad;
+  const char *pt;
+  char *ptoken;
+  uword dlen, slen;
+
+  bad = (s1max == 0) + (s2 == 0) + (ptr == 0) +
+    ((s1 == 0) && ptr && (*ptr == 0));
+  if (PREDICT_FALSE (bad != 0))
+    {
+      if (s2 == NULL)
+	clib_c11_violation ("s2 NULL");
+      if (s1max == NULL)
+	clib_c11_violation ("s1max is NULL");
+      if (ptr == NULL)
+	clib_c11_violation ("ptr is NULL");
+      /* s1 == 0 and *ptr == null is no good */
+      if ((s1 == 0) && ptr && (*ptr == 0))
+	clib_c11_violation ("s1 and ptr contents are NULL");
+      return 0;
+    }
+
+  if (s1 == 0)
+    s1 = *ptr;
+
+  /*
+   * scan s1 for a delimiter
+   */
+  dlen = *s1max;
+  ptoken = 0;
+  while (*s1 != '\0' && !ptoken)
+    {
+      if (PREDICT_FALSE (dlen == 0))
+	{
+	  *ptr = 0;
+	  clib_c11_violation ("s1 unterminated");
+	  return 0;
+	}
+
+      /*
+       * must scan the entire delimiter list
+       * ISO should have included a delimiter string limit!!
+       */
+      slen = STRTOK_DELIM_MAX_LEN;
+      pt = s2;
+      while (*pt != '\0')
+	{
+	  if (PREDICT_FALSE (slen == 0))
+	    {
+	      *ptr = 0;
+	      clib_c11_violation ("s2 unterminated");
+	      return 0;
+	    }
+	  slen--;
+	  if (*s1 == *pt)
+	    {
+	      ptoken = 0;
+	      break;
+	    }
+	  else
+	    {
+	      pt++;
+	      ptoken = s1;
+	    }
+	}
+      s1++;
+      dlen--;
+    }
+
+  /*
+   * if the beginning of a token was not found, then no
+   * need to continue the scan.
+   */
+  if (ptoken == 0)
+    {
+      *s1max = dlen;
+      return (ptoken);
+    }
+
+  /*
+   * Now we need to locate the end of the token
+   */
+  while (*s1 != '\0')
+    {
+      if (dlen == 0)
+	{
+	  *ptr = 0;
+	  clib_c11_violation ("s1 unterminated");
+	  return 0;
+	}
+
+      slen = STRTOK_DELIM_MAX_LEN;
+      pt = s2;
+      while (*pt != '\0')
+	{
+	  if (slen == 0)
+	    {
+	      *ptr = 0;
+	      clib_c11_violation ("s2 unterminated");
+	      return 0;
+	    }
+	  slen--;
+	  if (*s1 == *pt)
+	    {
+	      /*
+	       * found a delimiter, set to null
+	       * and return context ptr to next char
+	       */
+	      *s1 = '\0';
+	      *ptr = (s1 + 1);	/* return pointer for next scan */
+	      *s1max = dlen - 1;	/* account for the nulled delimiter */
+	      return (ptoken);
+	    }
+	  else
+	    {
+	      /*
+	       * simply scanning through the delimiter string
+	       */
+	      pt++;
+	    }
+	}
+      s1++;
+      dlen--;
+    }
+
+  *ptr = s1;
+  *s1max = dlen;
+  return (ptoken);
+}
+
+/*
+ * This macro is to provide smooth mapping from strstr to strstr_s.
+ * strstr_s requires s1max and s2max which the unsafe API does not have. So
+ * we have to improvise them with CLIB_STRING_MACRO_MAX which may cause us
+ * to access memory beyond it is intended if s1 or s2 is unterminated.
+ * For the record, strstr crashes if s1 or s2 is unterminated. But this macro
+ * does not.
+ * Applications are encouraged to use the cool C11 strstr_s API to avoid
+ * this problem.
+ */
+#define clib_strstr(s1,s2) \
+  ({ char * __substring = 0; \
+    strstr_s_inline (s1, CLIB_STRING_MACRO_MAX, s2, CLIB_STRING_MACRO_MAX, \
+		     &__substring);		 \
+    __substring;				 \
+  })
+
+errno_t strstr_s (char *s1, rsize_t s1max, const char *s2, rsize_t s2max,
+		  char **substring);
+
+always_inline errno_t
+strstr_s_inline (char *s1, rsize_t s1max, const char *s2, rsize_t s2max,
+		 char **substring)
+{
+  u8 bad;
+  size_t s1_size, s2_size;
+
+  bad =
+    (s1 == 0) + (s2 == 0) + (substring == 0) + (s1max == 0) + (s2max == 0) +
+    (s1 && s1max && (s1[clib_strnlen (s1, s1max)] != '\0')) +
+    (s2 && s2max && (s2[clib_strnlen (s2, s2max)] != '\0'));
+  if (PREDICT_FALSE (bad != 0))
+    {
+      if (s1 == 0)
+	clib_c11_violation ("s1 NULL");
+      if (s2 == 0)
+	clib_c11_violation ("s2 NULL");
+      if (s1max == 0)
+	clib_c11_violation ("s1max 0");
+      if (s2max == 0)
+	clib_c11_violation ("s2max 0");
+      if (substring == 0)
+	clib_c11_violation ("substring NULL");
+      if (s1 && s1max && (s1[clib_strnlen (s1, s1max)] != '\0'))
+	clib_c11_violation ("s1 unterminated");
+      if (s2 && s2max && (s2[clib_strnlen (s2, s1max)] != '\0'))
+	clib_c11_violation ("s2 unterminated");
+      return EINVAL;
+    }
+
+  /*
+   * s2 points to a string with zero length, or s2 equals s1, return s1
+   */
+  if (PREDICT_FALSE (*s2 == '\0' || s1 == s2))
+    {
+      *substring = s1;
+      return EOK;
+    }
+
+  /*
+   * s2_size > s1_size, it won't find match.
+   */
+  s1_size = clib_strnlen (s1, s1max);
+  s2_size = clib_strnlen (s2, s2max);
+  if (PREDICT_FALSE (s2_size > s1_size))
+    return ESRCH;
+
+  *substring = strstr (s1, s2);
+  if (*substring == 0)
+    return ESRCH;
+
+  return EOK;
+}
+
 #endif /* included_clib_string_h */
 
 /*