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1 // Copyright 2015, 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
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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 #ifndef VIXL_AARCH64_SIMULATOR_CONSTANTS_AARCH64_H_
28 #define VIXL_AARCH64_SIMULATOR_CONSTANTS_AARCH64_H_
29 
30 #include "instructions-aarch64.h"
31 
32 namespace vixl {
33 namespace aarch64 {
34 
35 // Debug instructions.
36 //
37 // VIXL's macro-assembler and simulator support a few pseudo instructions to
38 // make debugging easier. These pseudo instructions do not exist on real
39 // hardware.
40 //
41 // TODO: Also consider allowing these pseudo-instructions to be disabled in the
42 // simulator, so that users can check that the input is a valid native code.
43 // (This isn't possible in all cases. Printf won't work, for example.)
44 //
45 // Each debug pseudo instruction is represented by a HLT instruction. The HLT
46 // immediate field is used to identify the type of debug pseudo instruction.
47 
48 enum DebugHltOpcodes {
49   kUnreachableOpcode = 0xdeb0,
50   kPrintfOpcode,
51   kTraceOpcode,
52   kLogOpcode,
53   kRuntimeCallOpcode,
54   // Aliases.
55   kDebugHltFirstOpcode = kUnreachableOpcode,
56   kDebugHltLastOpcode = kLogOpcode
57 };
58 
59 // Each pseudo instruction uses a custom encoding for additional arguments, as
60 // described below.
61 
62 // Unreachable - kUnreachableOpcode
63 //
64 // Instruction which should never be executed. This is used as a guard in parts
65 // of the code that should not be reachable, such as in data encoded inline in
66 // the instructions.
67 
68 // Printf - kPrintfOpcode
69 //  - arg_count: The number of arguments.
70 //  - arg_pattern: A set of PrintfArgPattern values, packed into two-bit fields.
71 //
72 // Simulate a call to printf.
73 //
74 // Floating-point and integer arguments are passed in separate sets of registers
75 // in AAPCS64 (even for varargs functions), so it is not possible to determine
76 // the type of each argument without some information about the values that were
77 // passed in. This information could be retrieved from the printf format string,
78 // but the format string is not trivial to parse so we encode the relevant
79 // information with the HLT instruction.
80 //
81 // Also, the following registers are populated (as if for a native Aarch64
82 // call):
83 //    x0: The format string
84 // x1-x7: Optional arguments, if type == CPURegister::kRegister
85 // d0-d7: Optional arguments, if type == CPURegister::kFPRegister
86 const unsigned kPrintfArgCountOffset = 1 * kInstructionSize;
87 const unsigned kPrintfArgPatternListOffset = 2 * kInstructionSize;
88 const unsigned kPrintfLength = 3 * kInstructionSize;
89 
90 const unsigned kPrintfMaxArgCount = 4;
91 
92 // The argument pattern is a set of two-bit-fields, each with one of the
93 // following values:
94 enum PrintfArgPattern {
95   kPrintfArgW = 1,
96   kPrintfArgX = 2,
97   // There is no kPrintfArgS because floats are always converted to doubles in C
98   // varargs calls.
99   kPrintfArgD = 3
100 };
101 static const unsigned kPrintfArgPatternBits = 2;
102 
103 // Trace - kTraceOpcode
104 //  - parameter: TraceParameter stored as a uint32_t
105 //  - command: TraceCommand stored as a uint32_t
106 //
107 // Allow for trace management in the generated code. This enables or disables
108 // automatic tracing of the specified information for every simulated
109 // instruction.
110 const unsigned kTraceParamsOffset = 1 * kInstructionSize;
111 const unsigned kTraceCommandOffset = 2 * kInstructionSize;
112 const unsigned kTraceLength = 3 * kInstructionSize;
113 
114 // Trace parameters.
115 enum TraceParameters {
116   LOG_DISASM = 1 << 0,   // Log disassembly.
117   LOG_REGS = 1 << 1,     // Log general purpose registers.
118   LOG_VREGS = 1 << 2,    // Log NEON and floating-point registers.
119   LOG_SYSREGS = 1 << 3,  // Log the flags and system registers.
120   LOG_WRITE = 1 << 4,    // Log writes to memory.
121   LOG_BRANCH = 1 << 5,   // Log taken branches.
122 
123   LOG_NONE = 0,
124   LOG_STATE = LOG_REGS | LOG_VREGS | LOG_SYSREGS,
125   LOG_ALL = LOG_DISASM | LOG_STATE | LOG_WRITE | LOG_BRANCH
126 };
127 
128 // Trace commands.
129 enum TraceCommand { TRACE_ENABLE = 1, TRACE_DISABLE = 2 };
130 
131 // Log - kLogOpcode
132 //  - parameter: TraceParameter stored as a uint32_t
133 //
134 // Print the specified information once. This mechanism is separate from Trace.
135 // In particular, _all_ of the specified registers are printed, rather than just
136 // the registers that the instruction writes.
137 //
138 // Any combination of the TraceParameters values can be used, except that
139 // LOG_DISASM is not supported for Log.
140 const unsigned kLogParamsOffset = 1 * kInstructionSize;
141 const unsigned kLogLength = 2 * kInstructionSize;
142 
143 // Runtime call simulation - kRuntimeCall
144 const unsigned kRuntimeCallWrapperOffset = 1 * kInstructionSize;
145 // The size of a pointer on host.
146 const unsigned kRuntimeCallAddressSize = sizeof(uintptr_t);
147 const unsigned kRuntimeCallFunctionOffset =
148     kRuntimeCallWrapperOffset + kRuntimeCallAddressSize;
149 const unsigned kRuntimeCallLength =
150     kRuntimeCallFunctionOffset + kRuntimeCallAddressSize;
151 
152 }  // namespace aarch64
153 }  // namespace vixl
154 
155 #endif  // VIXL_AARCH64_SIMULATOR_CONSTANTS_AARCH64_H_
156