/src/botan/src/lib/entropy/rdseed/rdseed.cpp

Source (jump to first uncovered line)
/*
* Entropy Source Using Intel's rdseed instruction
* (C) 2015 Daniel Neus
* (C) 2015,2019 Jack Lloyd
*
* Botan is released under the Simplified BSD License (see license.txt)
*/

#include <botan/internal/rdseed.h>

#include <botan/internal/cpuid.h>

#include <immintrin.h>

namespace Botan {

namespace {

BOTAN_FUNC_ISA("rdseed") bool read_rdseed(secure_vector<uint32_t>& seed) {
   /*
   * RDSEED is not guaranteed to generate an output within any specific number
   * of attempts. However in testing on a Skylake system, with all hyperthreads
   * occupied in tight RDSEED loops, RDSEED will still usually succeed in under
   * 150 attempts. The maximum ever seen was 230 attempts until success. When
   * idle, RDSEED usually succeeds in 1 or 2 attempts.
   *
   * We set an upper bound of 1024 attempts, because it is possible that due
   * to firmware issue RDSEED is simply broken and never succeeds. We do not
   * want to loop forever in that case. If we exceed that limit, then we assume
   * the hardware is actually just broken, and stop the poll.
   */
   const size_t RDSEED_RETRIES = 1024;

   for(size_t i = 0; i != RDSEED_RETRIES; ++i) {
      uint32_t r = 0;
      int cf = 0;

#if defined(BOTAN_USE_GCC_INLINE_ASM)
      asm("rdseed %0; adcl $0,%1" : "=r"(r), "=r"(cf) : "0"(r), "1"(cf) : "cc");
#else
      cf = _rdseed32_step(&r);
#endif

      if(1 == cf) {
         seed.push_back(r);
         return true;
      }

      // Intel suggests pausing if RDSEED fails.
      _mm_pause();
   }

   return false;  // failed to produce an output after many attempts
}

}  // namespace

size_t Intel_Rdseed::poll(RandomNumberGenerator& rng) {
   const size_t RDSEED_BYTES = 1024;
   static_assert(RDSEED_BYTES % 4 == 0, "Bad RDSEED configuration");

   if(CPUID::has_rdseed()) {
      secure_vector<uint32_t> seed;
      seed.reserve(RDSEED_BYTES / 4);

      for(size_t p = 0; p != RDSEED_BYTES / 4; ++p) {
         /*
         If at any point we exceed our retry count, we stop the entire seed
         gathering process. This situation will only occur in situations of
         extremely high RDSEED utilization. If RDSEED is currently so highly
         contended, then the rest of the poll is likely to also face contention and
         it is better to quit now rather than (presumably) face very high retry
         times for the rest of the poll.
         */
         if(!read_rdseed(seed)) {
            break;
         }
      }

      if(!seed.empty()) {
         rng.add_entropy(reinterpret_cast<const uint8_t*>(seed.data()), seed.size() * sizeof(uint32_t));
      }
   }

   // RDSEED is used but not trusted
   return 0;
}

}  // namespace Botan

Line	Count	Source (jump to first uncovered line)
1		/*
2		* Entropy Source Using Intel's rdseed instruction
3		* (C) 2015 Daniel Neus
4		* (C) 2015,2019 Jack Lloyd
5		*
6		* Botan is released under the Simplified BSD License (see license.txt)
7		*/
8
9		#include <botan/internal/rdseed.h>
10
11		#include <botan/internal/cpuid.h>
12
13		#include <immintrin.h>
14
15		namespace Botan {
16
17		namespace {
18
19	0	BOTAN_FUNC_ISA("rdseed") bool read_rdseed(secure_vector<uint32_t>& seed) {
20		/*
21		* RDSEED is not guaranteed to generate an output within any specific number
22		* of attempts. However in testing on a Skylake system, with all hyperthreads
23		* occupied in tight RDSEED loops, RDSEED will still usually succeed in under
24		* 150 attempts. The maximum ever seen was 230 attempts until success. When
25		* idle, RDSEED usually succeeds in 1 or 2 attempts.
26		*
27		* We set an upper bound of 1024 attempts, because it is possible that due
28		* to firmware issue RDSEED is simply broken and never succeeds. We do not
29		* want to loop forever in that case. If we exceed that limit, then we assume
30		* the hardware is actually just broken, and stop the poll.
31		*/
32	0	const size_t RDSEED_RETRIES = 1024;
33
34	0	for(size_t i = 0; i != RDSEED_RETRIES; ++i) {
35	0	uint32_t r = 0;
36	0	int cf = 0;
37
38	0	#if defined(BOTAN_USE_GCC_INLINE_ASM)
39	0	asm("rdseed %0; adcl $0,%1" : "=r"(r), "=r"(cf) : "0"(r), "1"(cf) : "cc");
40		#else
41		cf = _rdseed32_step(&r);
42		#endif
43
44	0	if(1 == cf) {
45	0	seed.push_back(r);
46	0	return true;
47	0	}
48
49		// Intel suggests pausing if RDSEED fails.
50	0	_mm_pause();
51	0	}
52
53	0	return false; // failed to produce an output after many attempts
54	0	}
55
56		} // namespace
57
58	0	size_t Intel_Rdseed::poll(RandomNumberGenerator& rng) {
59	0	const size_t RDSEED_BYTES = 1024;
60	0	static_assert(RDSEED_BYTES % 4 == 0, "Bad RDSEED configuration");
61
62	0	if(CPUID::has_rdseed()) {
63	0	secure_vector<uint32_t> seed;
64	0	seed.reserve(RDSEED_BYTES / 4);
65
66	0	for(size_t p = 0; p != RDSEED_BYTES / 4; ++p) {
67		/*
68		If at any point we exceed our retry count, we stop the entire seed
69		gathering process. This situation will only occur in situations of
70		extremely high RDSEED utilization. If RDSEED is currently so highly
71		contended, then the rest of the poll is likely to also face contention and
72		it is better to quit now rather than (presumably) face very high retry
73		times for the rest of the poll.
74		*/
75	0	if(!read_rdseed(seed)) {
76	0	break;
77	0	}
78	0	}
79
80	0	if(!seed.empty()) {
81	0	rng.add_entropy(reinterpret_cast<const uint8_t>(seed.data()), seed.size() sizeof(uint32_t));
82	0	}
83	0	}
84
85		// RDSEED is used but not trusted
86	0	return 0;
87	0	}
88
89		} // namespace Botan

Coverage Report

Created: 2023-12-08 07:00