1 2 /*--------------------------------------------------------------------*/ 3 /*--- Handle remote gdb protocol. pub_core_gdbserver.h ---*/ 4 /*--------------------------------------------------------------------*/ 5 6 /* 7 This file is part of Valgrind, a dynamic binary instrumentation 8 framework. 9 10 Copyright (C) 2011-2015 Philippe Waroquiers 11 12 This program is free software; you can redistribute it and/or 13 modify it under the terms of the GNU General Public License as 14 published by the Free Software Foundation; either version 2 of the 15 License, or (at your option) any later version. 16 17 This program is distributed in the hope that it will be useful, but 18 WITHOUT ANY WARRANTY; without even the implied warranty of 19 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 20 General Public License for more details. 21 22 You should have received a copy of the GNU General Public License 23 along with this program; if not, write to the Free Software 24 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 25 02111-1307, USA. 26 27 The GNU General Public License is contained in the file COPYING. 28 */ 29 30 #ifndef __PUB_CORE_GDBSERVER_H 31 #define __PUB_CORE_GDBSERVER_H 32 33 #include "pub_tool_gdbserver.h" 34 #include "pub_core_options.h" 35 #include "pub_core_threadstate.h" // VgSchedReturnCode 36 37 /* Return the default path prefix for the named pipes (FIFOs) used by vgdb/gdb 38 to communicate with valgrind */ 39 HChar* VG_(vgdb_prefix_default)(void); 40 41 // After a fork or after an exec, call the below to (possibly) terminate 42 // the previous gdbserver and then activate a new gdbserver 43 // before any guest code execution, to e.g. allow the user to set 44 // breakpoints before execution. 45 // If VG_(clo_vgdb) == No, the below has no effect. 46 void VG_(gdbserver_prerun_action) (ThreadId tid); 47 48 // True if the initialisation of gdbserver was done, 49 // i.e. VG_(gdbserver_prerun_action) was called. 50 Bool VG_(gdbserver_init_done) (void); 51 52 // True if gdbserver should stop execution for the specified stop at reason 53 Bool VG_(gdbserver_stop_at) (VgdbStopAt stopat); 54 55 // True if there is some activity from vgdb 56 // If it returns True, then extern void VG_(gdbserver) can be called 57 // to handle this incoming vgdb request. 58 extern Bool VG_(gdbserver_activity) (ThreadId tid); 59 60 // If connected to GDB, VG_(gdbserver_exit) reports to GDB that the process 61 // is about to exit. 62 // gdbserver is then stopped (using VG_(gdbserver) (0)) 63 void VG_(gdbserver_exit) (ThreadId tid, VgSchedReturnCode tids_schedretcode); 64 65 /* On systems that defines PR_SET_PTRACER, verify if ptrace_scope is 66 is permissive enough for vgdb. 67 Otherwise, call set_ptracer. 68 This is especially aimed at Ubuntu >= 10.10 which has added 69 the ptrace_scope context. */ 70 void VG_(set_ptracer)(void); 71 72 /* Called by low level to insert or remove a break or watch point. 73 Break or watch point implementation is done using help from the tool. 74 break point support implies some (small) specific instrumentation 75 taken in charge for all tools by m_translate.c. 76 77 Write/read/access watchpoint can only be provided by tools which are 78 tracking addressability and/or accessibility of memory 79 (so typically memcheck can provide it). Note that memcheck addressability 80 bits do not differentiate between read and write accessibility. 81 However, when accessing unaddressable byte, memcheck can differentiate 82 reads from write, thereby providing read/write or access watchpoints. 83 84 Note that gdbserver assumes that software breakpoint is supported 85 (as this will be done by re-instrumenting the code). 86 Note that len is ignored for software breakpoints. hardware_breakpoint 87 are not supported. 88 89 Returns True if the point has properly been inserted or removed 90 Returns False otherwise. */ 91 Bool VG_(gdbserver_point) (PointKind kind, Bool insert, 92 Addr addr, int len); 93 94 /* True if there is a breakpoint at addr. */ 95 Bool VG_(has_gdbserver_breakpoint) (Addr addr); 96 97 /* Entry point invoked by vgdb when it uses ptrace to cause a gdbserver 98 invocation. A magic value is passed by vgdb in check as a verification 99 that the call has been properly pushed by vgdb. */ 100 extern void VG_(invoke_gdbserver) ( int check ); 101 102 // To be called by core (m_signals.c) before delivering a signal. 103 // Returns False if gdb user asks to not pass the signal to the client. 104 // Returns True if signal must be passed to the client, either because 105 // no gdb is connected, or gdb instructs to pass the signal. 106 // Note that if the below returns True, the signal might 107 // still be ignored if this is the action desired by the 108 // guest program. Using GDB, the user can also modify the signal to be 109 // reported (e.g. changing the signo to pass to the guest). 110 // If this function returns True, m_signals.c should deliver the signal 111 // info as modified by VG_(gdbserver_report_signal). 112 // If this function returns False, no signal should be reported. 113 extern Bool VG_(gdbserver_report_signal) (vki_siginfo_t *info, ThreadId tid); 114 115 // If no gdb is connected yet, wait for a gdb to connect and report 116 // this (supposedly) fatal signal. 117 // If a gdb is already connected, this does nothing (as normally 118 // the signal was already reported to the already connected gdb). 119 extern void VG_(gdbserver_report_fatal_signal) (const vki_siginfo_t *info, 120 ThreadId tid); 121 122 /* Entry point invoked by scheduler.c to execute the request 123 VALGRIND_CLIENT_MONITOR_COMMAND. 124 Returns True if command was not recognised. */ 125 extern Bool VG_(client_monitor_command) (HChar* cmd); 126 127 /* software_breakpoint, single step and jump support ------------------------*/ 128 /* VG_(instrument_for_gdbserver_if_needed) allows to do "standard and easy" 129 instrumentation for gdbserver. 130 VG_(instrument_for_gdbserver_if_needed) does the following: 131 * checks if gdbserver instrumentation is needed for vge. 132 * if no gdbserver instrumentation needed, 133 returns sb_in 134 * otherwise 135 It will instrument sb_in to allow gdbserver to properly 136 handle breakpoints and single_stepping in sb_in. 137 All the target jumps of sb_in will also be invalidated 138 if these are not yet instrumented for gdbserver. 139 This allows to have single_step working, using a lazily 140 translation of the blocks which are being single stepped 141 in. 142 143 The typical usage of this function is to call it on the block 144 instrumented by the tool instrument function i.e. : 145 return VG_(instrument_for_gdbserver_if_needed) (sb_out, 146 layout, 147 vge, 148 gWordTy, 149 hWordTy); 150 where sb_out is the block instrumented by the tool. 151 152 If the block contains a call to a dirty helper that indirectly 153 calls gdbserver, then this dirty helper can (indirectly) change 154 the IP. This implies to jump to this IP after the call to 155 gdbserver. */ 156 extern IRSB* VG_(instrument_for_gdbserver_if_needed) 157 (IRSB* sb_in, /* block to be instrumented */ 158 const VexGuestLayout* layout, 159 const VexGuestExtents* vge, 160 IRType gWordTy, IRType hWordTy); 161 162 /* reason for which gdbserver connection must be finished */ 163 typedef 164 enum { 165 orderly_finish, 166 reset_after_error, 167 reset_after_fork} FinishReason; 168 169 /* output various gdbserver statistics and status. */ 170 extern void VG_(gdbserver_status_output)(void); 171 172 /* Shared structure between vgdb and the process running 173 under valgrind. 174 We define two variants: a 32 bit and a 64 bit. 175 The valgrind process will use the appropriate size, 176 according to the architecture. 177 vgdb will use what the valgrind process is using. */ 178 /* The below takes care that sizes will be 32 or 64 bits, 179 whatever the architecture. A.o., vgdb.c cannot use directly 180 the types from pub_core_threadstate.h as we want vgdb.c to 181 be independent of the arch it is debugging in case of bi-arch 182 Valgrind (e.g. x86 and amd64). So, the valgrind process must 183 give all the needed info/offset to vgdb in the below structure. */ 184 185 typedef 186 struct { 187 // nr of bytes vgdb has written to valgrind 188 volatile int written_by_vgdb; 189 // nr of bytes seen by valgrind 190 volatile int seen_by_valgrind; 191 192 // address at which gdbserver can be invoked 193 Addr32 invoke_gdbserver; 194 195 // address of VG_(threads) and various sizes 196 // and offset needed by vgdb. 197 Addr32 threads; 198 int vg_n_threads; 199 int sizeof_ThreadState; 200 int offset_status; 201 int offset_lwpid; 202 203 // PID of the vgdb that last connected to the Valgrind gdbserver. 204 // It will be set by vgdb after connecting. 205 int vgdb_pid; 206 } VgdbShared32; 207 208 /* Same as VgdbShared32 but for 64 bits arch. */ 209 typedef 210 struct { 211 volatile int written_by_vgdb; 212 volatile int seen_by_valgrind; 213 214 Addr64 invoke_gdbserver; 215 216 Addr64 threads; 217 int vg_n_threads; 218 int sizeof_ThreadState; 219 int offset_status; 220 int offset_lwpid; 221 222 int vgdb_pid; 223 } VgdbShared64; 224 225 // The below typedef makes the life of valgrind easier. 226 // vgdb must however work explicitely with the specific 32 or 64 bits version. 227 228 #if VEX_HOST_WORDSIZE == 8 229 typedef VgdbShared64 VgdbShared; 230 #elif VEX_HOST_WORDSIZE == 4 231 typedef VgdbShared32 VgdbShared; 232 #else 233 # error "unexpected wordsize" 234 #endif 235 236 237 #endif // __PUB_CORE_GDBSERVER_H 238 /*--------------------------------------------------------------------*/ 239 /*--- end ---*/ 240 /*--------------------------------------------------------------------*/ 241