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clang-p2996/lldb/tools/debugserver/source/RNBRemote.h
Jason Molenda 26a27fb832 RNBRemote.cpp, RNBRemote.h: Add a new qGetPid packet which returns 
the pid of the process currently being debugged by debugserer in
hex, or 0 if unavailable.

This is effectively the same as the qC packet but that packet is
not clear in either its documentation or implementation (in gdb et al)
as to whether it is intended to return a pid or a thread id.  qGetPid
is unambiguous.

If qGetPid is unimplemented in the remote debugserver, the debugger may
try qC and see what kind of value is returned..

llvm-svn: 136055
2011-07-26 03:34:52 +00:00

360 lines
14 KiB
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//===-- RNBRemote.h ---------------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// Created by Greg Clayton on 12/12/07.
//
//===----------------------------------------------------------------------===//
#ifndef __RNBRemote_h__
#define __RNBRemote_h__
#include "RNBDefs.h"
#include "DNB.h"
#include "RNBContext.h"
#include "RNBSocket.h"
#include "PThreadMutex.h"
#include <string>
#include <vector>
#include <deque>
#include <map>
class RNBSocket;
class RNBContext;
class PThreadEvents;
enum event_loop_mode { debug_nub, gdb_remote_protocol, done };
class RNBRemote
{
public:
typedef enum {
invalid_packet = 0,
ack, // '+'
nack, // '-'
halt, // ^C (async halt)
use_extended_mode, // '!'
why_halted, // '?'
set_argv, // 'A'
set_bp, // 'B'
cont, // 'c'
continue_with_sig, // 'C'
detach, // 'D'
read_general_regs, // 'g'
write_general_regs, // 'G'
set_thread, // 'H'
step_inferior_one_cycle, // 'i'
signal_and_step_inf_one_cycle, // 'I'
kill, // 'k'
read_memory, // 'm'
write_memory, // 'M'
read_register, // 'p'
write_register, // 'P'
restart, // 'R'
single_step, // 's'
single_step_with_sig, // 'S'
search_mem_backwards, // 't'
thread_alive_p, // 'T'
vattach, // 'vAttach;pid'
vattachwait, // 'vAttachWait:XX...' where XX is one or more hex encoded process name ASCII bytes
vattachname, // 'vAttachName:XX...' where XX is one or more hex encoded process name ASCII bytes
vcont, // 'vCont'
vcont_list_actions, // 'vCont?'
write_data_to_memory, // 'X'
insert_mem_bp, // 'Z0'
remove_mem_bp, // 'z0'
insert_hardware_bp, // 'Z1'
remove_hardware_bp, // 'z1'
insert_write_watch_bp, // 'Z2'
remove_write_watch_bp, // 'z2'
insert_read_watch_bp, // 'Z3'
remove_read_watch_bp, // 'z3'
insert_access_watch_bp, // 'Z4'
remove_access_watch_bp, // 'z4'
query_current_thread_id, // 'qC'
query_get_pid, // 'qGetPid'
query_memory_crc, // 'qCRC:'
query_thread_ids_first, // 'qfThreadInfo'
query_thread_ids_subsequent, // 'qsThreadInfo'
query_thread_extra_info, // 'qThreadExtraInfo'
query_thread_stop_info, // 'qThreadStopInfo'
query_image_offsets, // 'qOffsets'
query_symbol_lookup, // 'gSymbols'
query_launch_success, // 'qLaunchSuccess'
query_register_info, // 'qRegisterInfo'
query_shlib_notify_info_addr, // 'qShlibInfoAddr'
query_step_packet_supported, // 'qStepPacketSupported'
query_host_info, // 'qHostInfo'
pass_signals_to_inferior, // 'QPassSignals'
start_noack_mode, // 'QStartNoAckMode'
prefix_reg_packets_with_tid, // 'QPrefixRegisterPacketsWithThreadID
set_logging_mode, // 'QSetLogging:'
set_max_packet_size, // 'QSetMaxPacketSize:'
set_max_payload_size, // 'QSetMaxPayloadSize:'
set_environment_variable, // 'QEnvironment:'
set_environment_variable_hex, // 'QEnvironmentHexEncoded:'
set_launch_arch, // 'QLaunchArch:'
set_disable_aslr, // 'QSetDisableASLR:'
set_stdin, // 'QSetSTDIN:'
set_stdout, // 'QSetSTDOUT:'
set_stderr, // 'QSetSTDERR:'
set_working_dir, // 'QSetWorkingDir:'
allocate_memory, // '_M'
deallocate_memory, // '_m'
unknown_type,
} PacketEnum;
typedef rnb_err_t (RNBRemote::*HandlePacketCallback)(const char *p);
RNBRemote ();
~RNBRemote ();
void Initialize();
bool InitializeRegisters ();
rnb_err_t HandleAsyncPacket(PacketEnum *type = NULL);
rnb_err_t HandleReceivedPacket(PacketEnum *type = NULL);
nub_thread_t GetContinueThread () const
{
return m_continue_thread;
}
void SetContinueThread (nub_thread_t tid)
{
m_continue_thread = tid;
}
nub_thread_t GetCurrentThread () const
{
if (m_thread == 0 || m_thread == -1)
return DNBProcessGetCurrentThread (m_ctx.ProcessID());
return m_thread;
}
void SetCurrentThread (nub_thread_t tid)
{
DNBProcessSetCurrentThread (m_ctx.ProcessID(), tid);
m_thread = tid;
}
static void* ThreadFunctionReadRemoteData(void *arg);
void StartReadRemoteDataThread ();
void StopReadRemoteDataThread ();
void NotifyThatProcessStopped (void);
rnb_err_t HandlePacket_A (const char *p);
rnb_err_t HandlePacket_H (const char *p);
rnb_err_t HandlePacket_qC (const char *p);
rnb_err_t HandlePacket_qGetPid (const char *p);
rnb_err_t HandlePacket_qLaunchSuccess (const char *p);
rnb_err_t HandlePacket_qRegisterInfo (const char *p);
rnb_err_t HandlePacket_qShlibInfoAddr (const char *p);
rnb_err_t HandlePacket_qStepPacketSupported (const char *p);
rnb_err_t HandlePacket_qThreadInfo (const char *p);
rnb_err_t HandlePacket_qThreadExtraInfo (const char *p);
rnb_err_t HandlePacket_qThreadStopInfo (const char *p);
rnb_err_t HandlePacket_qHostInfo (const char *p);
rnb_err_t HandlePacket_QStartNoAckMode (const char *p);
rnb_err_t HandlePacket_QThreadSuffixSupported (const char *p);
rnb_err_t HandlePacket_QSetLogging (const char *p);
rnb_err_t HandlePacket_QSetDisableASLR (const char *p);
rnb_err_t HandlePacket_QSetSTDIO (const char *p);
rnb_err_t HandlePacket_QSetWorkingDir (const char *p);
rnb_err_t HandlePacket_QSetMaxPayloadSize (const char *p);
rnb_err_t HandlePacket_QSetMaxPacketSize (const char *p);
rnb_err_t HandlePacket_QEnvironment (const char *p);
rnb_err_t HandlePacket_QEnvironmentHexEncoded (const char *p);
rnb_err_t HandlePacket_QLaunchArch (const char *p);
rnb_err_t HandlePacket_QPrefixRegisterPacketsWithThreadID (const char *p);
rnb_err_t HandlePacket_last_signal (const char *p);
rnb_err_t HandlePacket_m (const char *p);
rnb_err_t HandlePacket_M (const char *p);
rnb_err_t HandlePacket_X (const char *p);
rnb_err_t HandlePacket_g (const char *p);
rnb_err_t HandlePacket_G (const char *p);
rnb_err_t HandlePacket_z (const char *p);
rnb_err_t HandlePacket_T (const char *p);
rnb_err_t HandlePacket_p (const char *p);
rnb_err_t HandlePacket_P (const char *p);
rnb_err_t HandlePacket_c (const char *p);
rnb_err_t HandlePacket_C (const char *p);
rnb_err_t HandlePacket_D (const char *p);
rnb_err_t HandlePacket_k (const char *p);
rnb_err_t HandlePacket_s (const char *p);
rnb_err_t HandlePacket_S (const char *p);
rnb_err_t HandlePacket_v (const char *p);
rnb_err_t HandlePacket_UNIMPLEMENTED (const char *p);
rnb_err_t HandlePacket_ILLFORMED (const char *file, int line, const char *p, const char *description);
rnb_err_t HandlePacket_AllocateMemory (const char *p);
rnb_err_t HandlePacket_DeallocateMemory (const char *p);
rnb_err_t HandlePacket_stop_process (const char *p);
rnb_err_t SendStopReplyPacketForThread (nub_thread_t tid);
rnb_err_t SendHexEncodedBytePacket (const char *header, const void *buf, size_t buf_len, const char *footer);
rnb_err_t SendSTDOUTPacket (char *buf, nub_size_t buf_size);
rnb_err_t SendSTDERRPacket (char *buf, nub_size_t buf_size);
void FlushSTDIO ();
RNBContext& Context() { return m_ctx; }
RNBSocket& Comm() { return m_comm; }
void
SetUseNativeRegisters (bool b)
{
m_use_native_regs = b;
}
private:
// Outlaw some contructors
RNBRemote (const RNBRemote &);
protected:
rnb_err_t GetCommData ();
void CommDataReceived(const std::string& data);
struct Packet
{
typedef std::vector<Packet> collection;
typedef collection::iterator iterator;
typedef collection::const_iterator const_iterator;
PacketEnum type;
HandlePacketCallback normal; // Function to call when inferior is halted
HandlePacketCallback async; // Function to call when inferior is running
std::string abbrev;
std::string printable_name;
bool
IsPlatformPacket () const
{
switch (type)
{
case set_logging_mode:
case query_host_info:
return true;
default:
break;
}
return false;
}
Packet() :
type(invalid_packet),
normal (NULL),
async (NULL),
abbrev (),
printable_name ()
{
}
Packet( PacketEnum in_type,
HandlePacketCallback in_normal,
HandlePacketCallback in_async,
const char *in_abbrev,
const char *in_printable_name) :
type (in_type),
normal (in_normal),
async (in_async),
abbrev (in_abbrev),
printable_name (in_printable_name)
{
}
};
rnb_err_t GetPacket (std::string &packet_data, RNBRemote::Packet& packet_info, bool wait);
rnb_err_t SendPacket (const std::string &);
void CreatePacketTable ();
rnb_err_t GetPacketPayload (std::string &);
nub_thread_t
ExtractThreadIDFromThreadSuffix (const char *p);
// gdb can send multiple Z/z packets for the same address and
// these calls must be ref counted.
struct Breakpoint
{
Breakpoint(nub_break_t breakID) :
m_breakID(breakID),
m_refCount(1)
{
}
Breakpoint() :
m_breakID(INVALID_NUB_BREAK_ID),
m_refCount(0)
{
}
Breakpoint(const Breakpoint& rhs) :
m_breakID(rhs.m_breakID),
m_refCount(rhs.m_refCount)
{
}
nub_break_t BreakID() const { return m_breakID; }
uint32_t RefCount() const { return m_refCount; }
void Release() { if (m_refCount > 0) --m_refCount; }
void Retain() { ++m_refCount; }
nub_break_t m_breakID;
uint32_t m_refCount;
};
typedef std::map<nub_addr_t, Breakpoint> BreakpointMap;
typedef BreakpointMap::iterator BreakpointMapIter;
typedef BreakpointMap::const_iterator BreakpointMapConstIter;
RNBContext m_ctx; // process context
RNBSocket m_comm; // communication port
std::string m_arch;
nub_thread_t m_continue_thread; // thread to continue; 0 for any, -1 for all
nub_thread_t m_thread; // thread for other ops; 0 for any, -1 for all
PThreadMutex m_mutex; // Mutex that protects
uint32_t m_packets_recvd;
Packet::collection m_packets;
std::deque<std::string> m_rx_packets;
std::string m_rx_partial_data; // For packets that may come in more than one batch, anything left over can be left here
pthread_t m_rx_pthread;
BreakpointMap m_breakpoints;
BreakpointMap m_watchpoints;
uint32_t m_max_payload_size; // the maximum sized payload we should send to gdb
bool m_extended_mode:1, // are we in extended mode?
m_noack_mode:1, // are we in no-ack mode?
m_noack_mode_just_enabled:1, // Did we just enable this and need to compute one more checksum?
m_use_native_regs:1, // Use native registers by querying DNB layer for register definitions?
m_thread_suffix_supported:1; // Set to true if the 'p', 'P', 'g', and 'G' packets should be prefixed with the thread ID and colon:
// "$pRR;thread:TTTT;" instead of "$pRR"
// "$PRR=VVVVVVVV;thread:TTTT;" instead of "$PRR=VVVVVVVV"
// "$g;thread:TTTT" instead of "$g"
// "$GVVVVVVVVVVVVVV;thread:TTTT;#00 instead of "$GVVVVVVVVVVVVVV"
};
/* We translate the /usr/include/mach/exception_types.h exception types
(e.g. EXC_BAD_ACCESS) to the fake BSD signal numbers that gdb uses
in include/gdb/signals.h (e.g. TARGET_EXC_BAD_ACCESS). These hard
coded values for TARGET_EXC_BAD_ACCESS et al must match the gdb
values in its include/gdb/signals.h. */
#define TARGET_EXC_BAD_ACCESS 0x91
#define TARGET_EXC_BAD_INSTRUCTION 0x92
#define TARGET_EXC_ARITHMETIC 0x93
#define TARGET_EXC_EMULATION 0x94
#define TARGET_EXC_SOFTWARE 0x95
#define TARGET_EXC_BREAKPOINT 0x96
/* Generally speaking, you can't assume gdb can receive more than 399 bytes
at a time with a random gdb. This bufsize constant is only specifying
how many bytes gdb can *receive* from debugserver -- it tells us nothing
about how many bytes gdb might try to send in a single packet. */
#define DEFAULT_GDB_REMOTE_PROTOCOL_BUFSIZE 399
#endif // #ifndef __RNBRemote_h__
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