/* * Copyright (c) 2005 The Regents of The University of Michigan * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer; * redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution; * neither the name of the copyright holders nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * Authors: Nathan Binkert */ #include #include "arch/alpha/isa_traits.hh" #include "arch/alpha/stacktrace.hh" #include "arch/alpha/vtophys.hh" #include "base/bitfield.hh" #include "base/trace.hh" #include "cpu/base.hh" #include "cpu/exec_context.hh" #include "sim/system.hh" using namespace std; using namespace AlphaISA; ProcessInfo::ProcessInfo(ExecContext *_xc) : xc(_xc) { Addr addr = 0; if (!xc->getSystemPtr()->kernelSymtab->findAddress("thread_info_size", addr)) panic("thread info not compiled into kernel\n"); thread_info_size = gtoh(xc->getVirtPort()->read(addr)); if (!xc->getSystemPtr()->kernelSymtab->findAddress("task_struct_size", addr)) panic("thread info not compiled into kernel\n"); task_struct_size = gtoh(xc->getVirtPort()->read(addr)); if (!xc->getSystemPtr()->kernelSymtab->findAddress("thread_info_task", addr)) panic("thread info not compiled into kernel\n"); task_off = gtoh(xc->getVirtPort()->read(addr)); if (!xc->getSystemPtr()->kernelSymtab->findAddress("task_struct_pid", addr)) panic("thread info not compiled into kernel\n"); pid_off = gtoh(xc->getVirtPort()->read(addr)); if (!xc->getSystemPtr()->kernelSymtab->findAddress("task_struct_comm", addr)) panic("thread info not compiled into kernel\n"); name_off = gtoh(xc->getVirtPort()->read(addr)); } Addr ProcessInfo::task(Addr ksp) const { Addr base = ksp & ~0x3fff; if (base == ULL(0xfffffc0000000000)) return 0; return gtoh(xc->getVirtPort()->read(base + task_off)); } int ProcessInfo::pid(Addr ksp) const { Addr task = this->task(ksp); if (!task) return -1; return gtoh(xc->getVirtPort()->read(task + pid_off)); } string ProcessInfo::name(Addr ksp) const { Addr task = this->task(ksp); if (!task) return "console"; char comm[256]; CopyStringOut(xc, comm, task + name_off, sizeof(comm)); if (!comm[0]) return "startup"; return comm; } StackTrace::StackTrace() : xc(0), stack(64) { } StackTrace::StackTrace(ExecContext *_xc, StaticInstPtr inst) : xc(0), stack(64) { trace(_xc, inst); } StackTrace::~StackTrace() { } void StackTrace::trace(ExecContext *_xc, bool is_call) { xc = _xc; bool usermode = (xc->readMiscReg(AlphaISA::IPR_DTB_CM) & 0x18) != 0; Addr pc = xc->readNextPC(); bool kernel = xc->getSystemPtr()->kernelStart <= pc && pc <= xc->getSystemPtr()->kernelEnd; if (usermode) { stack.push_back(user); return; } if (!kernel) { stack.push_back(console); return; } SymbolTable *symtab = xc->getSystemPtr()->kernelSymtab; Addr ksp = xc->readIntReg(TheISA::StackPointerReg); Addr bottom = ksp & ~0x3fff; Addr addr; if (is_call) { if (!symtab->findNearestAddr(pc, addr)) panic("could not find address %#x", pc); stack.push_back(addr); pc = xc->readPC(); } Addr ra; int size; while (ksp > bottom) { if (!symtab->findNearestAddr(pc, addr)) panic("could not find symbol for pc=%#x", pc); assert(pc >= addr && "symbol botch: callpc < func"); stack.push_back(addr); if (isEntry(addr)) return; if (decodePrologue(ksp, pc, addr, size, ra)) { if (!ra) return; if (size <= 0) { stack.push_back(unknown); return; } pc = ra; ksp += size; } else { stack.push_back(unknown); return; } bool kernel = xc->getSystemPtr()->kernelStart <= pc && pc <= xc->getSystemPtr()->kernelEnd; if (!kernel) return; if (stack.size() >= 1000) panic("unwinding too far"); } panic("unwinding too far"); } bool StackTrace::isEntry(Addr addr) { if (addr == xc->readMiscReg(AlphaISA::IPR_PALtemp12)) return true; if (addr == xc->readMiscReg(AlphaISA::IPR_PALtemp7)) return true; if (addr == xc->readMiscReg(AlphaISA::IPR_PALtemp11)) return true; if (addr == xc->readMiscReg(AlphaISA::IPR_PALtemp21)) return true; if (addr == xc->readMiscReg(AlphaISA::IPR_PALtemp9)) return true; if (addr == xc->readMiscReg(AlphaISA::IPR_PALtemp2)) return true; return false; } bool StackTrace::decodeStack(MachInst inst, int &disp) { // lda $sp, -disp($sp) // // Opcode<31:26> == 0x08 // RA<25:21> == 30 // RB<20:16> == 30 // Disp<15:0> const MachInst mem_mask = 0xffff0000; const MachInst lda_pattern = 0x23de0000; const MachInst lda_disp_mask = 0x0000ffff; // subq $sp, disp, $sp // addq $sp, disp, $sp // // Opcode<31:26> == 0x10 // RA<25:21> == 30 // Lit<20:13> // One<12> = 1 // Func<11:5> == 0x20 (addq) // Func<11:5> == 0x29 (subq) // RC<4:0> == 30 const MachInst intop_mask = 0xffe01fff; const MachInst addq_pattern = 0x43c0141e; const MachInst subq_pattern = 0x43c0153e; const MachInst intop_disp_mask = 0x001fe000; const int intop_disp_shift = 13; if ((inst & mem_mask) == lda_pattern) disp = -sext<16>(inst & lda_disp_mask); else if ((inst & intop_mask) == addq_pattern) disp = -int((inst & intop_disp_mask) >> intop_disp_shift); else if ((inst & intop_mask) == subq_pattern) disp = int((inst & intop_disp_mask) >> intop_disp_shift); else return false; return true; } bool StackTrace::decodeSave(MachInst inst, int ®, int &disp) { // lda $stq, disp($sp) // // Opcode<31:26> == 0x08 // RA<25:21> == ? // RB<20:16> == 30 // Disp<15:0> const MachInst stq_mask = 0xfc1f0000; const MachInst stq_pattern = 0xb41e0000; const MachInst stq_disp_mask = 0x0000ffff; const MachInst reg_mask = 0x03e00000; const int reg_shift = 21; if ((inst & stq_mask) == stq_pattern) { reg = (inst & reg_mask) >> reg_shift; disp = sext<16>(inst & stq_disp_mask); } else { return false; } return true; } /* * Decode the function prologue for the function we're in, and note * which registers are stored where, and how large the stack frame is. */ bool StackTrace::decodePrologue(Addr sp, Addr callpc, Addr func, int &size, Addr &ra) { size = 0; ra = 0; for (Addr pc = func; pc < callpc; pc += sizeof(MachInst)) { MachInst inst; CopyOut(xc, (uint8_t *)&inst, pc, sizeof(MachInst)); int reg, disp; if (decodeStack(inst, disp)) { if (size) { // panic("decoding frame size again"); return true; } size += disp; } else if (decodeSave(inst, reg, disp)) { if (!ra && reg == ReturnAddressReg) { CopyOut(xc, (uint8_t *)&ra, sp + disp, sizeof(Addr)); if (!ra) { // panic("no return address value pc=%#x\n", pc); return false; } } } } return true; } #if TRACING_ON void StackTrace::dump() { StringWrap name(xc->getCpuPtr()->name()); SymbolTable *symtab = xc->getSystemPtr()->kernelSymtab; DPRINTFN("------ Stack ------\n"); string symbol; for (int i = 0, size = stack.size(); i < size; ++i) { Addr addr = stack[size - i - 1]; if (addr == user) symbol = "user"; else if (addr == console) symbol = "console"; else if (addr == unknown) symbol = "unknown"; else symtab->findSymbol(addr, symbol); DPRINTFN("%#x: %s\n", addr, symbol); } } #endif