X-Git-Url: https://www.bearssl.org/gitweb//home/git/?p=BearSSL;a=blobdiff_plain;f=src%2Fconfig.h;h=accae3e46d2d940780d95b27752d0895320134ff;hp=9eadaf4a78288d3f895aa1665fcb785ca80b3062;hb=12db697bccf2ff732665b9c7668c0826513489e0;hpb=5f045c759957fdff8c85716e6af99e10901fdac0

diff --git a/src/config.h b/src/config.h
index 9eadaf4..accae3e 100644
--- a/src/config.h
+++ b/src/config.h
@@ -98,6 +98,17 @@
 #define BR_NO_ARITH_SHIFT   1
  */
 
+/*
+ * When BR_RDRAND is enabled, the SSL engine will use the RDRAND opcode
+ * to automatically obtain quality randomness for seeding its internal
+ * PRNG. Since that opcode is present only in recent x86 CPU, its
+ * support is dynamically tested; if the current CPU does not support
+ * it, then another random source will be used, such as /dev/urandom or
+ * CryptGenRandom().
+ *
+#define BR_RDRAND   1
+ */
+
 /*
  * When BR_USE_URANDOM is enabled, the SSL engine will use /dev/urandom
  * to automatically obtain quality randomness for seedings its internal
@@ -162,4 +173,57 @@
 #define BR_AES_X86NI   1
  */
 
+/*
+ * When BR_SSE2 is enabled, SSE2 intrinsics will be used for some
+ * algorithm implementations that use them (e.g. chacha20_sse2). If this
+ * is not enabled explicitly, then support for SSE2 intrinsics will be
+ * automatically detected. If set explicitly to 0, then SSE2 code will
+ * not be compiled at all.
+ *
+#define BR_SSE2   1
+ */
+
+/*
+ * When BR_POWER8 is enabled, the AES implementation using the POWER ISA
+ * 2.07 opcodes (available on POWER8 processors and later) is compiled.
+ * If this is not enabled explicitly, then that implementation will be
+ * compiled only if a compatible compiler is detected, _and_ the target
+ * architecture is POWER8 or later.
+ *
+#define BR_POWER8   1
+ */
+
+/*
+ * When BR_INT128 is enabled, then code using the 'unsigned __int64'
+ * and 'unsigned __int128' types will be used to leverage 64x64->128
+ * unsigned multiplications. This should work with GCC and compatible
+ * compilers on 64-bit architectures.
+ *
+#define BR_INT128   1
+ */
+
+/*
+ * When BR_UMUL128 is enabled, then code using the '_umul128()' and
+ * '_addcarry_u64()' intrinsics will be used to implement 64x64->128
+ * unsigned multiplications. This should work on Visual C on x64 systems.
+ *
+#define BR_UMUL128   1
+ */
+
+/*
+ * When BR_LE_UNALIGNED is enabled, then the current architecture is
+ * assumed to use little-endian encoding for integers, and to tolerate
+ * unaligned accesses with no or minimal time penalty.
+ *
+#define BR_LE_UNALIGNED   1
+ */
+
+/*
+ * When BR_BE_UNALIGNED is enabled, then the current architecture is
+ * assumed to use little-endian encoding for integers, and to tolerate
+ * unaligned accesses with no or minimal time penalty.
+ *
+#define BR_BE_UNALIGNED   1
+ */
+
 #endif