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1 // Copyright 2018, VIXL authors
2 // All rights reserved.
3 //
4 // Redistribution and use in source and binary forms, with or without
5 // modification, are permitted provided that the following conditions are met:
6 //
7 //   * Redistributions of source code must retain the above copyright notice,
8 //     this list of conditions and the following disclaimer.
9 //   * Redistributions in binary form must reproduce the above copyright notice,
10 //     this list of conditions and the following disclaimer in the documentation
11 //     and/or other materials provided with the distribution.
12 //   * Neither the name of ARM Limited nor the names of its contributors may be
13 //     used to endorse or promote products derived from this software without
14 //     specific prior written permission.
15 //
16 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS CONTRIBUTORS "AS IS" AND
17 // ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
18 // WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
19 // DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
20 // FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
21 // DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
22 // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
23 // CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
24 // OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
25 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
26 
27 #ifdef VIXL_INCLUDE_SIMULATOR_AARCH64
28 
29 #include "simulator-aarch64.h"
30 
31 #include "utils-vixl.h"
32 
33 namespace vixl {
34 namespace aarch64 {
35 
36 // Randomly generated example keys for simulating only.
37 const Simulator::PACKey Simulator::kPACKeyIA = {0xc31718727de20f71,
38                                                 0xab9fd4e14b2fec51,
39                                                 0};
40 const Simulator::PACKey Simulator::kPACKeyIB = {0xeebb163b474e04c8,
41                                                 0x5267ac6fc280fb7c,
42                                                 1};
43 const Simulator::PACKey Simulator::kPACKeyDA = {0x5caef808deb8b1e2,
44                                                 0xd347cbc06b7b0f77,
45                                                 0};
46 const Simulator::PACKey Simulator::kPACKeyDB = {0xe06aa1a949ba8cc7,
47                                                 0xcfde69e3db6d0432,
48                                                 1};
49 
50 // The general PAC key isn't intended to be used with AuthPAC so we ensure the
51 // key number is invalid and asserts if used incorrectly.
52 const Simulator::PACKey Simulator::kPACKeyGA = {0xfcd98a44d564b3d5,
53                                                 0x6c56df1904bf0ddc,
54                                                 -1};
55 
GetNibble(uint64_t in_data,int position)56 static uint64_t GetNibble(uint64_t in_data, int position) {
57   return (in_data >> position) & 0xf;
58 }
59 
ShuffleNibbles(uint64_t in_data)60 static uint64_t ShuffleNibbles(uint64_t in_data) {
61   static int in_positions[16] =
62       {4, 36, 52, 40, 44, 0, 24, 12, 56, 60, 8, 32, 16, 28, 20, 48};
63   uint64_t out_data = 0;
64   for (int i = 0; i < 16; i++) {
65     out_data |= GetNibble(in_data, in_positions[i]) << (4 * i);
66   }
67   return out_data;
68 }
69 
SubstituteNibbles(uint64_t in_data)70 static uint64_t SubstituteNibbles(uint64_t in_data) {
71   // Randomly chosen substitutes.
72   static uint64_t subs[16] =
73       {4, 7, 3, 9, 10, 14, 0, 1, 15, 2, 8, 6, 12, 5, 11, 13};
74   uint64_t out_data = 0;
75   for (int i = 0; i < 16; i++) {
76     int index = (in_data >> (4 * i)) & 0xf;
77     out_data |= subs[index] << (4 * i);
78   }
79   return out_data;
80 }
81 
82 // Rotate nibble to the left by the amount specified.
RotNibble(uint64_t in_cell,int amount)83 static uint64_t RotNibble(uint64_t in_cell, int amount) {
84   VIXL_ASSERT((amount >= 0) && (amount <= 3));
85 
86   in_cell &= 0xf;
87   uint64_t temp = (in_cell << 4) | in_cell;
88   return (temp >> (4 - amount)) & 0xf;
89 }
90 
BigShuffle(uint64_t in_data)91 static uint64_t BigShuffle(uint64_t in_data) {
92   uint64_t out_data = 0;
93   for (int i = 0; i < 4; i++) {
94     uint64_t n12 = GetNibble(in_data, 4 * (i + 12));
95     uint64_t n8 = GetNibble(in_data, 4 * (i + 8));
96     uint64_t n4 = GetNibble(in_data, 4 * (i + 4));
97     uint64_t n0 = GetNibble(in_data, 4 * (i + 0));
98 
99     uint64_t t0 = RotNibble(n8, 2) ^ RotNibble(n4, 1) ^ RotNibble(n0, 1);
100     uint64_t t1 = RotNibble(n12, 1) ^ RotNibble(n4, 2) ^ RotNibble(n0, 1);
101     uint64_t t2 = RotNibble(n12, 2) ^ RotNibble(n8, 1) ^ RotNibble(n0, 1);
102     uint64_t t3 = RotNibble(n12, 1) ^ RotNibble(n8, 1) ^ RotNibble(n4, 2);
103 
104     out_data |= t3 << (4 * (i + 0));
105     out_data |= t2 << (4 * (i + 4));
106     out_data |= t1 << (4 * (i + 8));
107     out_data |= t0 << (4 * (i + 12));
108   }
109   return out_data;
110 }
111 
112 // A simple, non-standard hash function invented for simulating. It mixes
113 // reasonably well, however it is unlikely to be cryptographically secure and
114 // may have a higher collision chance than other hashing algorithms.
ComputePAC(uint64_t data,uint64_t context,PACKey key)115 uint64_t Simulator::ComputePAC(uint64_t data, uint64_t context, PACKey key) {
116   uint64_t working_value = data ^ key.high;
117   working_value = BigShuffle(working_value);
118   working_value = ShuffleNibbles(working_value);
119   working_value ^= key.low;
120   working_value = ShuffleNibbles(working_value);
121   working_value = BigShuffle(working_value);
122   working_value ^= context;
123   working_value = SubstituteNibbles(working_value);
124   working_value = BigShuffle(working_value);
125   working_value = SubstituteNibbles(working_value);
126 
127   return working_value;
128 }
129 
130 // The TTBR is selected by bit 63 or 55 depending on TBI for pointers without
131 // codes, but is always 55 once a PAC code is added to a pointer. For this
132 // reason, it must be calculated at the call site.
CalculatePACMask(uint64_t ptr,PointerType type,int ttbr)133 uint64_t Simulator::CalculatePACMask(uint64_t ptr, PointerType type, int ttbr) {
134   int bottom_pac_bit = GetBottomPACBit(ptr, ttbr);
135   int top_pac_bit = GetTopPACBit(ptr, type);
136   return ExtractUnsignedBitfield64(top_pac_bit,
137                                    bottom_pac_bit,
138                                    0xffffffffffffffff & ~kTTBRMask)
139          << bottom_pac_bit;
140 }
141 
AuthPAC(uint64_t ptr,uint64_t context,PACKey key,PointerType type)142 uint64_t Simulator::AuthPAC(uint64_t ptr,
143                             uint64_t context,
144                             PACKey key,
145                             PointerType type) {
146   VIXL_ASSERT((key.number == 0) || (key.number == 1));
147 
148   uint64_t pac_mask = CalculatePACMask(ptr, type, (ptr >> 55) & 1);
149   uint64_t original_ptr =
150       ((ptr & kTTBRMask) == 0) ? (ptr & ~pac_mask) : (ptr | pac_mask);
151 
152   uint64_t pac = ComputePAC(original_ptr, context, key);
153 
154   uint64_t error_code = 1 << key.number;
155   if ((pac & pac_mask) == (ptr & pac_mask)) {
156     return original_ptr;
157   } else {
158     int error_lsb = GetTopPACBit(ptr, type) - 2;
159     uint64_t error_mask = UINT64_C(0x3) << error_lsb;
160     return (original_ptr & ~error_mask) | (error_code << error_lsb);
161   }
162 }
163 
AddPAC(uint64_t ptr,uint64_t context,PACKey key,PointerType type)164 uint64_t Simulator::AddPAC(uint64_t ptr,
165                            uint64_t context,
166                            PACKey key,
167                            PointerType type) {
168   int top_pac_bit = GetTopPACBit(ptr, type);
169 
170   // TODO: Properly handle the case where extension bits are bad and TBI is
171   // turned off, and also test me.
172   VIXL_ASSERT(HasTBI(ptr, type));
173   int ttbr = (ptr >> 55) & 1;
174   uint64_t pac_mask = CalculatePACMask(ptr, type, ttbr);
175   uint64_t ext_ptr = (ttbr == 0) ? (ptr & ~pac_mask) : (ptr | pac_mask);
176 
177   uint64_t pac = ComputePAC(ext_ptr, context, key);
178 
179   // If the pointer isn't all zeroes or all ones in the PAC bitfield, corrupt
180   // the resulting code.
181   if (((ptr & (pac_mask | kTTBRMask)) != 0x0) &&
182       ((~ptr & (pac_mask | kTTBRMask)) != 0x0)) {
183     pac ^= UINT64_C(1) << (top_pac_bit - 1);
184   }
185 
186   uint64_t ttbr_shifted = static_cast<uint64_t>(ttbr) << 55;
187   return (pac & pac_mask) | ttbr_shifted | (ptr & ~pac_mask);
188 }
189 
StripPAC(uint64_t ptr,PointerType type)190 uint64_t Simulator::StripPAC(uint64_t ptr, PointerType type) {
191   uint64_t pac_mask = CalculatePACMask(ptr, type, (ptr >> 55) & 1);
192   return ((ptr & kTTBRMask) == 0) ? (ptr & ~pac_mask) : (ptr | pac_mask);
193 }
194 }  // namespace aarch64
195 }  // namespace vixl
196 
197 #endif  // VIXL_INCLUDE_SIMULATOR_AARCH64
198