void CmdFlowControl::onClient(DebuggerClient &client) { if (DebuggerCommand::displayedHelp(client)) return; client.setFrame(0); if (client.argCount() > 1) { help(client); return; } if (client.argCount() == 1) { std::string snum = client.argValue(1); if (!DebuggerClient::IsValidNumber(snum)) { client.error("Count needs to be a number."); return; } m_count = atoi(snum.c_str()); if (m_count < 1) { client.error("Count needs to be a positive number."); return; } } m_smallStep = client.getDebuggerClientSmallStep(); client.sendToServer(this); throw DebuggerConsoleExitException(); }
bool CmdMachine::AttachSandbox(DebuggerClient &client, DSandboxInfoPtr sandbox, bool force /* = false */) { if (client.isLocal()) { client.error("Local script doesn't have sandbox to attach to."); return false; } CmdMachine cmd; cmd.m_body = "attach"; cmd.m_sandboxes.push_back(sandbox); cmd.m_force = force; client.info("Attaching to %s and pre-loading, please wait...", sandbox->desc().c_str()); CmdMachinePtr cmdMachine = client.xend<CmdMachine>(&cmd); if (cmdMachine->m_succeed) { client.playMacro("startup"); } else { // Note: it would be nice to give them more info about the process we think // is debugging this sandbox: what machine it's on, what it's pid is, etc. // Unfortunately, we don't have any of that data. We'd need a protocol // change to have the client give us more info when it attaches. client.error( "Failed to attach to the sandbox. Maybe another client is debugging, \n" "or a client failed to detach cleanly.\n" "You can attach to another sandbox, or exit the other attached client, \n" "or force this client to take over the sandbox with: \n" "\n" "\t[m]achine [a]ttach [f]orce %s %s" "\n", sandbox->m_user.c_str(), sandbox->m_name.c_str()); } return cmdMachine->m_succeed; }
bool CmdMachine::AttachSandbox(DebuggerClient &client, DSandboxInfoPtr sandbox, bool force /* = false */) { if (client.isLocal()) { client.error("Local script doesn't have sandbox to attach to."); return false; } CmdMachine cmd; cmd.m_body = "attach"; cmd.m_sandboxes.push_back(sandbox); cmd.m_force = force; client.info("Attaching to %s and pre-loading, please wait...", sandbox->desc().c_str()); CmdMachinePtr cmdMachine = client.xend<CmdMachine>(&cmd); if (cmdMachine->m_succeed) { client.playMacro("startup"); } else { client.error("failed to attach to sandbox, maybe another client is " "debugging, \nattach to another sandbox, exit the " "attached hphpd client, or try \n" "[m]achine [a]ttach [f]orce [%s] [%s]", sandbox->m_user.c_str(), sandbox->m_name.c_str()); } return cmdMachine->m_succeed; }
void CmdWhere::onClientImpl(DebuggerClient &client) { if (DebuggerCommand::displayedHelp(client)) return; if (client.argCount() > 1) { help(client); return; } Array st = fetchStackTrace(client); if (st.empty()) { client.info("(no stacktrace to display or in global scope)"); client.info("if you hit serialization limit, consider do " "\"set sa off\" and then get the stack without args"); return; } // so list command can default to current frame client.moveToFrame(client.getFrame(), false); if (client.argCount() == 0) { int i = 0; for (ArrayIter iter(st); iter; ++iter) { client.printFrame(i, iter.second().toArray()); ++i; if (!client.isApiMode() && i % DebuggerClient::ScrollBlockSize == 0 && client.ask("There are %zd more frames. Continue? [Y/n]", st.size() - i) == 'n') { break; } } } else { string snum = client.argValue(1); int num = atoi(snum.c_str()); if (snum[0] == '-') { snum = snum.substr(1); } if (!DebuggerClient::IsValidNumber(snum)) { client.error("The argument, if specified, has to be numeric."); return; } if (num > 0) { for (int i = 0; i < num && i < st.size(); i++) { client.printFrame(i, st[i].toArray()); } } else if (num < 0) { for (int i = st.size() + num; i < st.size(); i++) { client.printFrame(i, st[i].toArray()); } } else { client.error("0 was specified for the number of frames"); client.tutorial( "The optional argument is the number of frames to print out. " "Use a positive number to print out innermost frames. Use a negative " "number to print out outermost frames." ); } } }
void CmdInstrument::onClientImpl(DebuggerClient &client) { if (DebuggerCommand::displayedHelp(client)) return; if (client.argCount() == 1) { if (client.argValue(1) == "list" || client.argValue(1) == "l") { listInst(client); return; } if (client.argValue(1) == "clear" || client.argValue(1) == "c") { clearInst(client); return; } } if (client.argCount() < 2 || client.argValue(1) == "help") { help(client); return; } std::string loc = client.argValue(1); std::string file = client.argValue(2); std::string desc; if (client.argCount() >= 3) { desc = client.argValue(3); } Variant code = f_file_get_contents(file.c_str()); if (code.isNull()) { client.error("Unable to read from file %s", file.c_str()); return; } m_instPoints = client.getInstPoints(); if (loc == "here") { InstPointInfoPtr ipi(new InstPointInfo()); ipi->setLocHere(); ipi->m_code = (std::string) code.toString(); ipi->m_desc = desc; m_instPoints->push_back(ipi); } else if (loc.rfind("()") == loc.size() - 2){ InstPointInfoPtr ipi(new InstPointInfo()); ipi->setLocFuncEntry(loc.substr(0, loc.size() - 2)); ipi->m_code = (std::string) code.toString(); ipi->m_desc = desc; m_instPoints->push_back(ipi); } else { client.error("Not implemented\n"); return; } m_type = ActionWrite; CmdInstrumentPtr instCmdPtr = client.xend<CmdInstrument>(this); if (!instCmdPtr->m_enabled) { client.error("Instrumentation is not enabled on the server"); } client.setInstPoints(instCmdPtr->m_ips); CmdInstrument::PrintInstPoints(client); }
void CmdPrint::onClientImpl(DebuggerClient &client) { if (DebuggerCommand::displayedHelp(client)) return; if (client.argCount() == 0) { help(client); return; } int index = 1; if (client.arg(1, "always")) { m_isForWatch = true; if (client.argCount() == 1) { client.error("'[p]rint [a]lways' needs an expression to watch."); return; } index++; } else if (client.arg(1, "list")) { m_isForWatch = true; processList(client); return; } else if (client.arg(1, "clear")) { m_isForWatch = true; processClear(client); return; } const char *format = nullptr; for (const char **fmt = Formats; *fmt; fmt++) { if (client.arg(index, *fmt)) { format = *fmt; index++; break; } } m_body = client.lineRest(index); if (m_isForWatch) { client.addWatch(format, m_body); return; } m_bypassAccessCheck = client.getDebuggerBypassCheck(); m_printLevel = client.getDebuggerPrintLevel(); assert(m_printLevel <= 0 || m_printLevel >= DebuggerClient::MinPrintLevel); m_frame = client.getFrame(); CmdPrintPtr res = client.xend<CmdPrint>(this); if (!res->is(m_type)) { assert(client.isApiMode()); m_incomplete = true; res->setClientOutput(client); } else { m_output = res->m_output; m_ret = res->m_ret; if (!m_output.empty()) { client.output(m_output); } client.output(FormatResult(format, m_ret)); } }
void CmdExtension::onClient(DebuggerClient &client) { if (DebuggerCommand::displayedHelp(client)) return; m_args = *client.args(); auto cmd = client.xend<CmdExtension>(this); if (cmd->m_out.empty()) { client.error(cmd->m_err); } else { client.print(cmd->m_out); } }
// If there is no current file, print the desired range of eval code // or give an error message if the debugger is not currently performing // an eval command. void CmdList::listEvalCode(DebuggerClient &client) { assert(m_file.empty()); std::string evalCode = client.getCode(); if (evalCode.empty()) { client.error("There is no current source file."); } else { client.print(highlight_php(evalCode)); } }
static String format_string(DebuggerClient &client, int _argc, CStrRef format, CArrRef _argv) { TRACE(5, "c_DebuggerClientCmdUser::format_string\n"); Variant ret = f_sprintf(_argc, format, _argv); if (ret.isString()) { return ret.toString(); } client.error("Debugger extension failed to format string: %s", format.data()); return ""; }
void CmdMacro::onClientImpl(DebuggerClient &client) { if (DebuggerCommand::displayedHelp(client)) return; if (client.argCount() == 0) { help(client); return; } if (client.arg(1, "start")) { client.startMacro(client.argValue(2)); } else if (client.arg(1, "end")) { client.endMacro(); } else if (client.arg(1, "replay")) { if (!client.playMacro(client.argValue(2))) { client.error("Unable to find specified macro."); processList(client); } } else if (client.arg(1, "list")) { processList(client); } else if (client.arg(1, "clear")) { string snum = client.argValue(2); if (!DebuggerClient::IsValidNumber(snum)) { client.error("'& [c]lear' needs an {index} argument."); client.tutorial( "You will have to run '& [l]ist' first to see a list of valid " "numbers or indices to specify." ); return; } int num = atoi(snum.c_str()); if (!client.deleteMacro(num)) { client.error("\"%s\" is not a valid macro index. Choose one from " "this list:", snum.c_str()); processList(client); return; } } }
void CmdPrint::processClear(DebuggerClient &client) { DebuggerClient::WatchPtrVec &watches = client.getWatches(); if (watches.empty()) { client.error("There is no watch expression to clear."); client.tutorial( "Use '[p]rint [a]lways ...' to set new watch expressions. " "Use '[p]rint ?|[h]elp' to read how to set them. " ); return; } if (client.arg(2, "all")) { watches.clear(); client.info("All watch expressions are cleared."); return; } string snum = client.argValue(2); if (!DebuggerClient::IsValidNumber(snum)) { client.error("'[p]rint [c]lear' needs an {index} argument."); client.tutorial( "You will have to run '[p]rint [l]ist' first to see a list of valid " "numbers or indices to specify." ); return; } int num = atoi(snum.c_str()) - 1; if (num < 0 || num >= (int)watches.size()) { client.error("\"%s\" is not a valid index. Choose one from this list:", snum.c_str()); processList(client); return; } watches.erase(watches.begin() + num); }
void CmdThread::onClient(DebuggerClient &client) { if (DebuggerCommand::displayedHelp(client)) return; if (client.argCount() > 1) { help(client); return; } if (client.argCount() == 0) { m_body = "info"; auto res = client.xend<CmdThread>(this); client.print(res->m_out); } else if (client.arg(1, "list")) { processList(client); } else if (client.arg(1, "normal")) { m_body = "normal"; client.sendToServer(this); client.info("Thread is running in normal mode now. Other threads will " "interleave when they hit breakpoints as well."); } else if (client.arg(1, "sticky")) { m_body = "sticky"; client.sendToServer(this); client.info("Thread is running in sticky mode now. All other threads " "will wait until this thread finishes, when they hit " "breakpoints."); } else if (client.arg(1, "exclusive")) { m_body = "exclusive"; client.sendToServer(this); client.info("Thread is running in exclusive mode now. All other threads " "will not break, even when they hit breakpoints."); } else { std::string snum = client.argValue(1); if (!DebuggerClient::IsValidNumber(snum)) { client.error("'[t]hread {index}' needs a numeric argument."); client.tutorial( "You will have to run '[t]hread [l]ist' first to see a list of valid " "numbers or indices to specify. Thread 1 is always your current " "thread. If that's the only thread on the list, you do not have " "another thread at break to switch to." ); return; } int num = atoi(snum.c_str()); DThreadInfoPtr thread = client.getThread(num); if (!thread) { processList(client, false); thread = client.getThread(num); if (!thread) { client.error("\"%s\" is not a valid thread index. Choose one from " "this list:", snum.c_str()); processList(client); return; } } if (thread->m_id == client.getCurrentThreadId()) { client.info("This is your current thread already."); return; } m_body = "switch"; m_threads.push_back(thread); client.sendToServer(this); throw DebuggerConsoleExitException(); } }
void CmdConfig::onClient(DebuggerClient &client) { if (DebuggerCommand::displayedHelp(client)) return; if (client.argCount() == 0) { listVars(client); return; } std::string var = client.argValue(1); if (var == "help" || client.argCount() < 2) { help(client); return; } std::string value = client.argValue(2); if (var == "BypassAccessCheck" || var == "bac") { if (value == "on") { client.print("BypassAccessCheck(bac) set to on.\n" "All code executed from debugger is bypassing " "access check!"); client.setDebuggerClientBypassCheck(true); } else if (value == "off") { client.print("BypassAccessCheck(bac) set to off"); client.setDebuggerClientBypassCheck(false); } else { help(client); } return; } if (var == "LogFile" || var == "lf") { // Close the current log file handler FILE *f = client.getLogFileHandler(); if (f != nullptr) { fclose(f); client.setLogFileHandler(nullptr); } if (value == "off") { value = ""; } else { // Try open the log file and error if it's not working f = fopen(value.c_str(), "a"); if (f == nullptr) { client.error("Cannot open log file '%s'", value.c_str()); value = ""; client.setLogFileHandler(nullptr); } else { client.setLogFileHandler(f); } } client.print("LogFile(lf) is set to %s", value == "" ? "off" : value.c_str()); client.setLogFile(value); return; } if (var == "PrintLevel" || var == "pl") { int pl = strtol(value.c_str(), nullptr, 10); if (pl > 0 && pl < DebuggerClient::MinPrintLevel) { client.error("%d is invalid for PrintLevel(pl)", pl); return; } client.setDebuggerClientPrintLevel(pl); client.print("PrintLevel(pl) is set to %d", pl); return; } if (var == "ShortPrintCharCount" || var == "cc") { int cc = strtol(value.c_str(), nullptr, 10); if (cc < -1) { client.error("%d is invalid for ShortPrintCharCount(cc)", cc); } else { client.setDebuggerClientShortPrintCharCount(cc); client.print("ShortPrintCharCount(cc) is set to %d", cc); } return; } if (var == "SmallStep" || var == "ss") { if (value == "on") { client.print("SmallStep(ss) set to on.\n"); client.setDebuggerClientSmallStep(true); } else if (value == "off") { client.print("SmallStep(ss) set to off"); client.setDebuggerClientSmallStep(false); } else { help(client); } return; } if (var == "StackArgs" || var == "sa") { if (value == "on") { client.print("StackArgs(sa) set to on.\n"); client.setDebuggerClientStackArgs(true); } else if (value == "off") { client.print("StackArgs(sa) set to off"); client.setDebuggerClientStackArgs(false); } else { help(client); } return; } if (var == "MaxCodeLines" || var == "mcl") { // MaxCodeLines: a useful configuration variable for emacs/hphpd-integration // to prevent or limit code spew after each breakpoint is hit (since emacs // hphpd-mode already loads the source file into a buffer and displays a // pointer to the current line). int mcl = strtol(value.c_str(), nullptr, 10); if (mcl < -1) { client.error("%d is invalid for MaxCodeLines(mcl)", mcl); } else { client.setDebuggerClientMaxCodeLines(mcl); client.print("MaxCodeLines(mcl) is set to %d", mcl); } return; } listVars(client); }
void CmdMachine::onClientImpl(DebuggerClient &client) { if (DebuggerCommand::displayedHelp(client)) return; if (client.argCount() == 0) { help(client); return; } bool rpc = client.arg(1, "rpc"); if (rpc || client.arg(1, "connect")) { if (client.argCount() != 2) { help(client); return; } string host = client.argValue(2); int port = 0; size_t pos = host.find(":"); if (pos != string::npos) { if (!DebuggerClient::IsValidNumber(host.substr(pos + 1))) { client.error("Port needs to be a number"); help(client); return; } port = atoi(host.substr(pos + 1).c_str()); host = host.substr(0, pos); } if (rpc) { if (client.connectRPC(host, port)) { throw DebuggerConsoleExitException(); } } else { if (client.connect(host, port)) { throw DebuggerConsoleExitException(); } } if (!client.initializeMachine()) { throw DebuggerConsoleExitException(); } return; } if (client.arg(1, "disconnect")) { if (client.disconnect()) { throw DebuggerConsoleExitException(); } if (!client.initializeMachine()) { throw DebuggerConsoleExitException(); } return; } if (client.arg(1, "list")) { processList(client); return; } if (client.arg(1, "attach")) { DSandboxInfoPtr sandbox; string snum = client.argValue(2); if (DebuggerClient::IsValidNumber(snum)) { int num = atoi(snum.c_str()); sandbox = client.getSandbox(num); if (!sandbox) { processList(client, false); sandbox = client.getSandbox(num); if (!sandbox) { client.error("\"%s\" is not a valid sandbox index. Choose one from " "this list:", snum.c_str()); processList(client); return; } } } else { int argBase = 2; if (client.argCount() >= 2 && client.arg(2, "force")) { m_force = true; argBase++; } sandbox = DSandboxInfoPtr(new DSandboxInfo()); if (client.argCount() < argBase) { sandbox->m_user = client.getCurrentUser(); sandbox->m_name = "default"; } else if (client.argCount() == argBase) { sandbox->m_user = client.getCurrentUser(); sandbox->m_name = client.argValue(argBase); } else if (client.argCount() == argBase + 1) { sandbox->m_user = client.argValue(argBase); sandbox->m_name = client.argValue(argBase + 1); } else { help(client); return; } } if (AttachSandbox(client, sandbox, m_force)) { // Attach succeed, wait for next interrupt throw DebuggerConsoleExitException(); } return; } help(client); }
// Checks the command arguments, report errors and returning as appropriate. // Then communicates with the server to retrieve source information. Also // retrieves and updates location information stored in the client. void CmdList::onClient(DebuggerClient &client) { if (DebuggerCommand::displayedHelp(client)) return; if (client.argCount() > 1) { help(client); return; } int line = 0; m_line1 = m_line2 = 0; if (client.argCount() == 1) { std::string arg = client.argValue(1); if (DebuggerClient::IsValidNumber(arg)) { line = atoi(arg.c_str()); if (line <= 0) { client.error("A line number has to be a positive integer."); help(client); return; } m_line1 = line - DebuggerClient::CodeBlockSize/2; m_line2 = m_line1 + DebuggerClient::CodeBlockSize; } else if (arg.find("::") != std::string::npos) { if (!listFunctionOrClass(client)) { client.error("Unable to read specified method."); } return; } else { size_t pos = arg.find(':'); if (pos != std::string::npos) { m_file = arg.substr(0, pos); if (m_file.empty()) { client.error("File name cannot be empty."); help(client); return; } arg = arg.substr(pos + 1); } pos = arg.find('-'); if (pos != std::string::npos) { std::string line1 = arg.substr(0, pos); std::string line2 = arg.substr(pos + 1); if (!DebuggerClient::IsValidNumber(line1) || !DebuggerClient::IsValidNumber(line2)) { if (m_file.empty()) { m_file = arg; m_line1 = 1; m_line2 = DebuggerClient::CodeBlockSize; } else { client.error("Line numbers have to be integers."); help(client); return; } } else { m_line1 = atoi(line1.c_str()); m_line2 = atoi(line2.c_str()); if (line1.empty()) { m_line1 = m_line2 - DebuggerClient::CodeBlockSize; } if (line2.empty()) { m_line2 = m_line1 + DebuggerClient::CodeBlockSize; } if (m_line1 <= 0 || m_line2 <= 0) { client.error("Line numbers have to be positive integers."); help(client); return; } } } else { if (!DebuggerClient::IsValidNumber(arg)) { if (m_file.empty()) { if (client.argCount() == 1 && listFunctionOrClass(client)) { return; } m_file = arg; m_line1 = 1; m_line2 = DebuggerClient::CodeBlockSize; } else { client.error("A line number has to be an integer."); help(client); return; } } else { int line = atoi(arg.c_str()); if (line <= 0) { client.error("A line number has to be a positive integer."); help(client); return; } m_line1 = line - DebuggerClient::CodeBlockSize/2; m_line2 = m_line1 + DebuggerClient::CodeBlockSize; } } } } int charFocus0 = 0; int lineFocus1 = 0; int charFocus1 = 0; if (m_file.empty()) { getListLocation(client, line, charFocus0, lineFocus1, charFocus1); if (m_file.empty()) { listEvalCode(client); return; } } else if (m_file[0] == '/') { struct stat sb; stat(m_file.c_str(), &sb); if ((sb.st_mode & S_IFMT) == S_IFDIR) { client.setSourceRoot(m_file); client.info("PHP source root directory is set to %s", m_file.c_str()); return; } } if (!listFileRange(client, line, charFocus0, lineFocus1, charFocus1)) { client.error( "Unable to read specified function, class or source file location."); } }
void CmdWhere::onClient(DebuggerClient &client) { if (DebuggerCommand::displayedHelp(client)) return; if (client.argCount() > 2) { help(client); return; } int argBase = 1; if ((client.argCount() > 0) && client.arg(argBase, "async")) { // We use a different command type for an async stack trace, so we // can both send and receive different data and still keep the // existing Where command unchanged. This ensures that old clients // can still get a stack trace from a newer server, and vice // versa. m_type = KindOfWhereAsync; argBase++; client.info("Fetching async stacktrace..."); } Array st = fetchStackTrace(client); if (st.empty()) { if (m_type != KindOfWhereAsync) { client.info("(no stacktrace to display or in global scope)"); client.info("If you hit the serialization limit, try " "\"set sa off\" to get the stack without args"); } else { client.info("(no async stacktrace to display)"); } return; } // so list command can default to current frame client.moveToFrame(client.getFrame(), false); if (client.argCount() < argBase) { int i = 0; for (ArrayIter iter(st); iter; ++iter) { client.printFrame(i, iter.second().toArray()); ++i; if (i % DebuggerClient::ScrollBlockSize == 0 && client.ask("There are %zd more frames. Continue? [Y/n]", st.size() - i) == 'n') { break; } } } else { std::string snum = client.argValue(argBase); int num = atoi(snum.c_str()); if (snum[0] == '-') { snum = snum.substr(1); } if (!DebuggerClient::IsValidNumber(snum)) { client.error("The argument, if specified, has to be numeric."); return; } if (num > 0) { for (int i = 0; i < num && i < st.size(); i++) { client.printFrame(i, st[i].toArray()); } } else if (num < 0) { for (int i = st.size() + num; i < st.size(); i++) { client.printFrame(i, st[i].toArray()); } } else { client.error("0 was specified for the number of frames"); client.tutorial( "The optional argument is the number of frames to print out. " "Use a positive number to print out innermost frames. Use a negative " "number to print out outermost frames." ); } } }
void CmdInterrupt::onClient(DebuggerClient &client) { client.setCurrentLocation(m_threadId, m_bpi); if (!client.getDebuggerClientSmallStep()) { // Adjust line and char if it's not small stepping if (m_bpi->m_line1 == m_bpi->m_line2) { m_bpi->m_char1 = 1; m_bpi->m_char2 = 100; } } client.setMatchedBreakPoints(m_matched); switch (m_interrupt) { case SessionStarted: if (!m_program.empty()) { client.info("Program %s loaded. Type '[r]un' or '[c]ontinue' to go.", m_program.c_str()); m_bpi->m_file = m_program; } break; case SessionEnded: if (!m_program.empty()) { client.info("Program %s exited normally.", m_program.c_str()); } break; case RequestStarted: if (!m_program.empty()) { client.info("Web request %s started.", m_program.c_str()); } break; case RequestEnded: if (!m_program.empty()) { client.info("Web request %s ended.", m_program.c_str()); } break; case PSPEnded: if (!m_program.empty()) { client.info("Post-Send Processing for %s was ended.", m_program.c_str()); } break; case HardBreakPoint: case BreakPointReached: case ExceptionThrown: { bool found = false; bool toggled = false; auto *bps = client.getBreakPoints(); for (unsigned int i = 0; i < m_matched.size(); i++) { BreakPointInfoPtr bpm = m_matched[i]; BreakPointInfoPtr bp; int index = 0; for (; index < (int)bps->size(); index++) { if (bpm->same((*bps)[index])) { bp = (*bps)[index]; break; } } if (bp) { found = true; if (bp->m_state == BreakPointInfo::Once) { bp->m_state = BreakPointInfo::Disabled; toggled = true; } if (m_interrupt == BreakPointReached || m_interrupt == HardBreakPoint) { client.info("Breakpoint %d reached %s", bp->index(), m_bpi->site().c_str()); client.shortCode(m_bpi); } else { if (m_bpi->m_exceptionClass == BreakPointInfo::ErrorClassName) { client.info("Breakpoint %d reached: An error occurred %s", bp->index(), m_bpi->site().c_str()); client.shortCode(m_bpi); client.error("Error Message: %s", m_bpi->m_exceptionObject.c_str()); } else { client.info("Breakpoint %d reached: Throwing %s %s", bp->index(), m_bpi->m_exceptionClass.c_str(), m_bpi->site().c_str()); client.shortCode(m_bpi); if (client.getLogFileHandler()) { client.output(m_bpi->m_exceptionObject); } } } if (!bpm->m_output.empty()) { client.print(bpm->m_output); } } } if (toggled) { CmdBreak::SendClientBreakpointListToServer(client); } if (!found) { if (m_interrupt == HardBreakPoint) { // for HardBreakPoint, default the frame to the caller client.setFrame(1); } client.info("Break %s", m_bpi->site().c_str()); client.shortCode(m_bpi); } break; } } if (!m_errorMsg.empty()) { client.error(m_errorMsg); } // watches switch (m_interrupt) { case SessionStarted: case RequestStarted: break; default: { DebuggerClient::WatchPtrVec &watches = client.getWatches(); for (int i = 0; i < (int)watches.size(); i++) { if (i > 0) client.output("%s", ""); client.info("Watch %d: %s =", i + 1, watches[i]->second.c_str()); Variant v = CmdPrint().processWatch(client, watches[i]->first, watches[i]->second); client.output(CmdPrint::FormatResult(watches[i]->first, v)); } } } }