void CmdOut::onBeginInterrupt(DebuggerProxy &proxy, CmdInterrupt &interrupt) { TRACE(2, "CmdNext::onBeginInterrupt\n"); assert(!m_complete); // Complete cmds should not be asked to do work. if (interrupt.getInterruptType() == ExceptionThrown) { // If an exception is thrown we turn interrupts on to ensure we stop when // control reaches the first catch clause. removeLocationFilter(); m_needsVMInterrupt = true; return; } int currentVMDepth = g_vmContext->m_nesting; int currentStackDepth = proxy.getStackDepth(); if (currentVMDepth < m_vmDepth) { // Cut corner here, just break when cross VM boundary no matter how // many levels we want to go out of TRACE(2, "CmdOut: shallower VM depth, done.\n"); cleanupStepOuts(); m_complete = true; } else if ((currentVMDepth == m_vmDepth) && (currentStackDepth < m_stackDepth)) { TRACE(2, "CmdOut: same VM depth, shallower stack depth, done.\n"); cleanupStepOuts(); m_complete = (decCount() == 0); if (!m_complete) { TRACE(2, "CmdOut: not complete, step out again.\n"); setupStepOuts(); } } m_needsVMInterrupt = false; }
void CmdContinue::onSetup(DebuggerProxy *proxy, CmdInterrupt &interrupt) { assert(!m_complete); // Complete cmds should not be asked to do work. CmdFlowControl::onSetup(proxy, interrupt); // If there's a remaining count on this cmd then we want it left installed // in the proxy. m_complete = (decCount() == 0); }
void CmdOut::onBeginInterrupt(DebuggerProxy &proxy, CmdInterrupt &interrupt) { TRACE(2, "CmdNext::onBeginInterrupt\n"); assert(!m_complete); // Complete cmds should not be asked to do work. if (interrupt.getInterruptType() == ExceptionThrown) { // If an exception is thrown we turn interrupts on to ensure we stop when // control reaches the first catch clause. removeLocationFilter(); m_needsVMInterrupt = true; return; } int currentVMDepth = g_vmContext->m_nesting; int currentStackDepth = proxy.getStackDepth(); // Deeper or same depth? Keep running. if ((currentVMDepth > m_vmDepth) || ((currentVMDepth == m_vmDepth) && (currentStackDepth >= m_stackDepth))) { return; } TRACE(2, "CmdOut: shallower stack depth, done.\n"); cleanupStepOuts(); m_complete = (decCount() == 0); if (!m_complete) { TRACE(2, "CmdOut: not complete, step out again.\n"); onSetup(proxy, interrupt); } m_needsVMInterrupt = false; }
void CmdStep::onBeginInterrupt(DebuggerProxy &proxy, CmdInterrupt &interrupt) { // Step doesn't care about this interrupt... we just stay the course and // keep stepping. if (interrupt.getInterruptType() == ExceptionHandler) return; // Don't step into generated functions, keep looking. if (interrupt.getSite()->getLine0() == 0) return; m_complete = (decCount() == 0); if (!m_complete) { installLocationFilterForLine(interrupt.getSite()); } }
void CmdOut::onBeginInterrupt(DebuggerProxy &proxy, CmdInterrupt &interrupt) { TRACE(2, "CmdOut::onBeginInterrupt\n"); assert(!m_complete); // Complete cmds should not be asked to do work. m_needsVMInterrupt = false; if (m_skippingOverPopR) { m_complete = true; return; } int currentVMDepth = g_context->m_nesting; int currentStackDepth = proxy.getStackDepth(); // Deeper or same depth? Keep running. if ((currentVMDepth > m_vmDepth) || ((currentVMDepth == m_vmDepth) && (currentStackDepth >= m_stackDepth))) { TRACE(2, "CmdOut: deeper, keep running...\n"); return; } if (interrupt.getInterruptType() == ExceptionHandler) { // If we're about to enter an exception handler we turn interrupts on to // ensure we stop when control reaches the handler. The normal logic below // will decide if we're done at that point or not. TRACE(2, "CmdOut: exception thrown\n"); removeLocationFilter(); m_needsVMInterrupt = true; return; } TRACE(2, "CmdOut: shallower stack depth, done.\n"); cleanupStepOuts(); int depth = decCount(); if (depth == 0) { PC pc = g_context->getPC(); // Step over PopR following a call if (toOp(*pc) == OpPopR) { m_skippingOverPopR = true; m_needsVMInterrupt = true; } else { m_complete = true; } return; } else { TRACE(2, "CmdOut: not complete, step out again.\n"); onSetup(proxy, interrupt); } }
void CmdNext::onBeginInterrupt(DebuggerProxy &proxy, CmdInterrupt &interrupt) { TRACE(2, "CmdNext::onBeginInterrupt\n"); assert(!m_complete); // Complete cmds should not be asked to do work. if (interrupt.getInterruptType() == ExceptionThrown) { // If an exception is thrown we turn interrupts on to ensure we stop when // control reaches the first catch clause. removeLocationFilter(); m_needsVMInterrupt = true; return; } int currentVMDepth = g_vmContext->m_nesting; int currentStackDepth = proxy.getStackDepth(); if ((currentVMDepth < m_vmDepth) || ((currentVMDepth == m_vmDepth) && (currentStackDepth <= m_stackDepth))) { // We're at the same depth as when we started, or perhaps even shallower, so // there's no need for any step out breakpoint anymore. cleanupStepOut(); if (m_loc != interrupt.getFileLine()) { TRACE(2, "CmdNext: same depth, off original line.\n"); m_complete = (decCount() == 0); } if (!m_complete) { TRACE(2, "CmdNext: not complete, filter new line and keep stepping.\n"); m_loc = interrupt.getFileLine(); installLocationFilterForLine(interrupt.getSite()); m_needsVMInterrupt = true; } } else { // Deeper, so let's setup a step out operation and turn interrupts off. if (!m_stepOutUnit) { // We can nuke the entire location filter here since we'll re-install it // when we get back to the old level. Keeping it installed may be more // efficient if we were on a large line, but there is a penalty for every // opcode executed while it's installed and that's bad if there's a lot of // code called from that line. removeLocationFilter(); setupStepOut(); } m_needsVMInterrupt = false; } }
void CmdNext::onBeginInterrupt(DebuggerProxy& proxy, CmdInterrupt& interrupt) { TRACE(2, "CmdNext::onBeginInterrupt\n"); assertx(!m_complete); // Complete cmds should not be asked to do work. ActRec *fp = vmfp(); if (!fp) { // If we have no frame just wait for the next instruction to be interpreted. m_needsVMInterrupt = true; return; } PC pc = vmpc(); Unit* unit = fp->m_func->unit(); Offset offset = unit->offsetOf(pc); TRACE(2, "CmdNext: pc %p, opcode %s at '%s' offset %d\n", pc, opcodeToName(peek_op(pc)), fp->m_func->fullName()->data(), offset); int currentVMDepth = g_context->m_nesting; int currentStackDepth = proxy.getStackDepth(); TRACE(2, "CmdNext: original depth %d:%d, current depth %d:%d\n", m_vmDepth, m_stackDepth, currentVMDepth, currentStackDepth); // Where are we on the stack now vs. when we started? Breaking the answer down // into distinct variables helps the clarity of the algorithm below. bool deeper = false; bool originalDepth = false; if ((currentVMDepth == m_vmDepth) && (currentStackDepth == m_stackDepth)) { originalDepth = true; } else if ((currentVMDepth > m_vmDepth) || ((currentVMDepth == m_vmDepth) && (currentStackDepth > m_stackDepth))) { deeper = true; } m_needsVMInterrupt = false; // Will be set again below if still needed. // First consider if we've got internal breakpoints setup. These are used when // we can make an accurate prediction of where execution should flow, // eventually, and when we want to let the program run normally until we get // there. if (hasStepOuts() || hasStepResumable()) { TRACE(2, "CmdNext: checking internal breakpoint(s)\n"); if (atStepOutOffset(unit, offset)) { if (deeper) return; // Recursion TRACE(2, "CmdNext: hit step-out\n"); } else if (atStepResumableOffset(unit, offset)) { if (m_stepResumableId != getResumableId(fp)) return; TRACE(2, "CmdNext: hit step-cont\n"); // We're in the resumable we expect. This may be at a // different stack depth, though, especially if we've moved from // the original function to the resumable. Update the depth // accordingly. if (!originalDepth) { m_vmDepth = currentVMDepth; m_stackDepth = currentStackDepth; deeper = false; originalDepth = true; } } else if (interrupt.getInterruptType() == ExceptionHandler) { // Entering an exception handler may take us someplace we weren't // expecting. Adjust internal breakpoints accordingly. First case is easy. if (deeper) { TRACE(2, "CmdNext: exception handler, deeper\n"); return; } // For step-conts, we ignore handlers at the original level if we're not // in the original resumable. We don't care about exception handlers // in resumables being driven at the same level. if (hasStepResumable() && originalDepth && (m_stepResumableId != getResumableId(fp))) { TRACE(2, "CmdNext: exception handler, original depth, wrong cont\n"); return; } // Sometimes we have handlers in generated code, i.e., Continuation::next. // These just help propagate exceptions so ignore those. if (fp->m_func->line1() == 0) { TRACE(2, "CmdNext: exception handler, ignoring func with no source\n"); return; } if (fp->m_func->isBuiltin()) { TRACE(2, "CmdNext: exception handler, ignoring builtin functions\n"); return; } TRACE(2, "CmdNext: exception handler altering expected flow\n"); } else { // We have internal breakpoints setup, but we haven't hit one yet. Keep // running until we reach one. TRACE(2, "CmdNext: waiting to hit internal breakpoint...\n"); return; } // We've hit one internal breakpoint at a useful place, or decided we don't, // need them, so we can remove them all now. cleanupStepOuts(); cleanupStepResumable(); } if (interrupt.getInterruptType() == ExceptionHandler) { // If we're about to enter an exception handler we turn interrupts on to // ensure we stop when control reaches the handler. The normal logic below // will decide if we're done at that point or not. TRACE(2, "CmdNext: exception handler\n"); removeLocationFilter(); m_needsVMInterrupt = true; return; } if (m_skippingAwait) { m_skippingAwait = false; stepAfterAwait(); return; } if (deeper) { TRACE(2, "CmdNext: deeper, setup step out to get back to original line\n"); setupStepOuts(); // We can nuke the entire location filter here since we'll re-install it // when we get back to the old level. Keeping it installed may be more // efficient if we were on a large line, but there is a penalty for every // opcode executed while it's installed and that's bad if there's a lot of // code called from that line. removeLocationFilter(); return; } if (originalDepth && (m_loc == interrupt.getFileLine())) { TRACE(2, "CmdNext: not complete, still on same line\n"); stepCurrentLine(interrupt, fp, pc); return; } TRACE(2, "CmdNext: operation complete.\n"); m_complete = (decCount() == 0); if (!m_complete) { TRACE(2, "CmdNext: repeat count > 0, start fresh.\n"); onSetup(proxy, interrupt); } }
void CmdStep::onBeginInterrupt(DebuggerProxy *proxy, CmdInterrupt &interrupt) { m_complete = (decCount() == 0); if (!m_complete) { installLocationFilterForLine(interrupt.getSite()); } }
void CmdContinue::onBeginInterrupt(DebuggerProxy &proxy, CmdInterrupt &interrupt) { assert(!m_complete); // Complete cmds should not be asked to do work. m_complete = (decCount() == 0); }