xref: /freebsd/contrib/llvm-project/compiler-rt/lib/xray/xray_mips64.cpp (revision fe75646a0234a261c0013bf1840fdac4acaf0cec)
1 //===-- xray_mips64.cpp -----------------------------------------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 //
9 // This file is a part of XRay, a dynamic runtime instrumentation system.
10 //
11 // Implementation of MIPS64-specific routines.
12 //
13 //===----------------------------------------------------------------------===//
14 #include "sanitizer_common/sanitizer_common.h"
15 #include "xray_defs.h"
16 #include "xray_interface_internal.h"
17 #include <atomic>
18 
19 namespace __xray {
20 
21 // The machine codes for some instructions used in runtime patching.
22 enum PatchOpcodes : uint32_t {
23   PO_DADDIU = 0x64000000, // daddiu rt, rs, imm
24   PO_SD = 0xFC000000,     // sd rt, base(offset)
25   PO_LUI = 0x3C000000,    // lui rt, imm
26   PO_ORI = 0x34000000,    // ori rt, rs, imm
27   PO_DSLL = 0x00000038,   // dsll rd, rt, sa
28   PO_JALR = 0x00000009,   // jalr rs
29   PO_LD = 0xDC000000,     // ld rt, base(offset)
30   PO_B60 = 0x1000000f,    // b #60
31   PO_NOP = 0x0,           // nop
32 };
33 
34 enum RegNum : uint32_t {
35   RN_T0 = 0xC,
36   RN_T9 = 0x19,
37   RN_RA = 0x1F,
38   RN_SP = 0x1D,
39 };
40 
41 inline static uint32_t encodeInstruction(uint32_t Opcode, uint32_t Rs,
42                                          uint32_t Rt,
43                                          uint32_t Imm) XRAY_NEVER_INSTRUMENT {
44   return (Opcode | Rs << 21 | Rt << 16 | Imm);
45 }
46 
47 inline static uint32_t
48 encodeSpecialInstruction(uint32_t Opcode, uint32_t Rs, uint32_t Rt, uint32_t Rd,
49                          uint32_t Imm) XRAY_NEVER_INSTRUMENT {
50   return (Rs << 21 | Rt << 16 | Rd << 11 | Imm << 6 | Opcode);
51 }
52 
53 inline static bool patchSled(const bool Enable, const uint32_t FuncId,
54                              const XRaySledEntry &Sled,
55                              void (*TracingHook)()) XRAY_NEVER_INSTRUMENT {
56   // When |Enable| == true,
57   // We replace the following compile-time stub (sled):
58   //
59   // xray_sled_n:
60   //	B .tmpN
61   //	15 NOPs (60 bytes)
62   //	.tmpN
63   //
64   // With the following runtime patch:
65   //
66   // xray_sled_n (64-bit):
67   //    daddiu sp, sp, -16                      ;create stack frame
68   //    nop
69   //    sd ra, 8(sp)                            ;save return address
70   //    sd t9, 0(sp)                            ;save register t9
71   //    lui t9, %highest(__xray_FunctionEntry/Exit)
72   //    ori t9, t9, %higher(__xray_FunctionEntry/Exit)
73   //    dsll t9, t9, 16
74   //    ori t9, t9, %hi(__xray_FunctionEntry/Exit)
75   //    dsll t9, t9, 16
76   //    ori t9, t9, %lo(__xray_FunctionEntry/Exit)
77   //    lui t0, %hi(function_id)
78   //    jalr t9                                 ;call Tracing hook
79   //    ori t0, t0, %lo(function_id)            ;pass function id (delay slot)
80   //    ld t9, 0(sp)                            ;restore register t9
81   //    ld ra, 8(sp)                            ;restore return address
82   //    daddiu sp, sp, 16                       ;delete stack frame
83   //
84   // Replacement of the first 4-byte instruction should be the last and atomic
85   // operation, so that the user code which reaches the sled concurrently
86   // either jumps over the whole sled, or executes the whole sled when the
87   // latter is ready.
88   //
89   // When |Enable|==false, we set back the first instruction in the sled to be
90   //   B #60
91 
92   uint32_t *Address = reinterpret_cast<uint32_t *>(Sled.address());
93   if (Enable) {
94     uint32_t LoTracingHookAddr =
95         reinterpret_cast<int64_t>(TracingHook) & 0xffff;
96     uint32_t HiTracingHookAddr =
97         (reinterpret_cast<int64_t>(TracingHook) >> 16) & 0xffff;
98     uint32_t HigherTracingHookAddr =
99         (reinterpret_cast<int64_t>(TracingHook) >> 32) & 0xffff;
100     uint32_t HighestTracingHookAddr =
101         (reinterpret_cast<int64_t>(TracingHook) >> 48) & 0xffff;
102     uint32_t LoFunctionID = FuncId & 0xffff;
103     uint32_t HiFunctionID = (FuncId >> 16) & 0xffff;
104     Address[2] = encodeInstruction(PatchOpcodes::PO_SD, RegNum::RN_SP,
105                                    RegNum::RN_RA, 0x8);
106     Address[3] = encodeInstruction(PatchOpcodes::PO_SD, RegNum::RN_SP,
107                                    RegNum::RN_T9, 0x0);
108     Address[4] = encodeInstruction(PatchOpcodes::PO_LUI, 0x0, RegNum::RN_T9,
109                                    HighestTracingHookAddr);
110     Address[5] = encodeInstruction(PatchOpcodes::PO_ORI, RegNum::RN_T9,
111                                    RegNum::RN_T9, HigherTracingHookAddr);
112     Address[6] = encodeSpecialInstruction(PatchOpcodes::PO_DSLL, 0x0,
113                                           RegNum::RN_T9, RegNum::RN_T9, 0x10);
114     Address[7] = encodeInstruction(PatchOpcodes::PO_ORI, RegNum::RN_T9,
115                                    RegNum::RN_T9, HiTracingHookAddr);
116     Address[8] = encodeSpecialInstruction(PatchOpcodes::PO_DSLL, 0x0,
117                                           RegNum::RN_T9, RegNum::RN_T9, 0x10);
118     Address[9] = encodeInstruction(PatchOpcodes::PO_ORI, RegNum::RN_T9,
119                                    RegNum::RN_T9, LoTracingHookAddr);
120     Address[10] = encodeInstruction(PatchOpcodes::PO_LUI, 0x0, RegNum::RN_T0,
121                                     HiFunctionID);
122     Address[11] = encodeSpecialInstruction(PatchOpcodes::PO_JALR, RegNum::RN_T9,
123                                            0x0, RegNum::RN_RA, 0X0);
124     Address[12] = encodeInstruction(PatchOpcodes::PO_ORI, RegNum::RN_T0,
125                                     RegNum::RN_T0, LoFunctionID);
126     Address[13] = encodeInstruction(PatchOpcodes::PO_LD, RegNum::RN_SP,
127                                     RegNum::RN_T9, 0x0);
128     Address[14] = encodeInstruction(PatchOpcodes::PO_LD, RegNum::RN_SP,
129                                     RegNum::RN_RA, 0x8);
130     Address[15] = encodeInstruction(PatchOpcodes::PO_DADDIU, RegNum::RN_SP,
131                                     RegNum::RN_SP, 0x10);
132     uint32_t CreateStackSpace = encodeInstruction(
133         PatchOpcodes::PO_DADDIU, RegNum::RN_SP, RegNum::RN_SP, 0xfff0);
134     std::atomic_store_explicit(
135         reinterpret_cast<std::atomic<uint32_t> *>(Address), CreateStackSpace,
136         std::memory_order_release);
137   } else {
138     std::atomic_store_explicit(
139         reinterpret_cast<std::atomic<uint32_t> *>(Address),
140         uint32_t(PatchOpcodes::PO_B60), std::memory_order_release);
141   }
142   return true;
143 }
144 
145 bool patchFunctionEntry(const bool Enable, const uint32_t FuncId,
146                         const XRaySledEntry &Sled,
147                         void (*Trampoline)()) XRAY_NEVER_INSTRUMENT {
148   return patchSled(Enable, FuncId, Sled, Trampoline);
149 }
150 
151 bool patchFunctionExit(const bool Enable, const uint32_t FuncId,
152                        const XRaySledEntry &Sled) XRAY_NEVER_INSTRUMENT {
153   return patchSled(Enable, FuncId, Sled, __xray_FunctionExit);
154 }
155 
156 bool patchFunctionTailExit(const bool Enable, const uint32_t FuncId,
157                            const XRaySledEntry &Sled) XRAY_NEVER_INSTRUMENT {
158   // FIXME: In the future we'd need to distinguish between non-tail exits and
159   // tail exits for better information preservation.
160   return patchSled(Enable, FuncId, Sled, __xray_FunctionExit);
161 }
162 
163 bool patchCustomEvent(const bool Enable, const uint32_t FuncId,
164                       const XRaySledEntry &Sled) XRAY_NEVER_INSTRUMENT {
165   // FIXME: Implement in mips64?
166   return false;
167 }
168 
169 bool patchTypedEvent(const bool Enable, const uint32_t FuncId,
170                      const XRaySledEntry &Sled) XRAY_NEVER_INSTRUMENT {
171   // FIXME: Implement in mips64?
172   return false;
173 }
174 } // namespace __xray
175 
176 extern "C" void __xray_ArgLoggerEntry() XRAY_NEVER_INSTRUMENT {
177   // FIXME: this will have to be implemented in the trampoline assembly file
178 }
179