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author | Gabe Black <gblack@eecs.umich.edu> | 2011-03-02 22:53:10 -0800 |
---|---|---|
committer | Gabe Black <gblack@eecs.umich.edu> | 2011-03-02 22:53:10 -0800 |
commit | 3df970f0de9790c0805ec76759a9c36a0fb10bac (patch) | |
tree | 8bdc5bcaa636386bffcaca4b580ab707a6056400 /util/statetrace | |
parent | 07b507d2785f9d7696f980d6556e362392f92fda (diff) | |
download | gem5-3df970f0de9790c0805ec76759a9c36a0fb10bac.tar.xz |
Statetrace: Clean up style.
Diffstat (limited to 'util/statetrace')
-rw-r--r-- | util/statetrace/arch/tracechild_amd64.cc | 448 | ||||
-rw-r--r-- | util/statetrace/arch/tracechild_amd64.hh | 9 | ||||
-rw-r--r-- | util/statetrace/arch/tracechild_arm.cc | 60 | ||||
-rw-r--r-- | util/statetrace/arch/tracechild_arm.hh | 19 | ||||
-rw-r--r-- | util/statetrace/arch/tracechild_i386.cc | 119 | ||||
-rw-r--r-- | util/statetrace/arch/tracechild_i386.hh | 106 | ||||
-rw-r--r-- | util/statetrace/arch/tracechild_sparc.cc | 331 | ||||
-rw-r--r-- | util/statetrace/arch/tracechild_sparc.hh | 171 | ||||
-rw-r--r-- | util/statetrace/printer.cc | 108 | ||||
-rw-r--r-- | util/statetrace/printer.hh | 14 | ||||
-rw-r--r-- | util/statetrace/refcnt.hh | 9 | ||||
-rw-r--r-- | util/statetrace/regstate.hh | 35 | ||||
-rw-r--r-- | util/statetrace/statetrace.cc | 82 | ||||
-rw-r--r-- | util/statetrace/tracechild.cc | 188 | ||||
-rw-r--r-- | util/statetrace/tracechild.hh | 53 | ||||
-rw-r--r-- | util/statetrace/tracechild_arch.cc | 25 |
16 files changed, 858 insertions, 919 deletions
diff --git a/util/statetrace/arch/tracechild_amd64.cc b/util/statetrace/arch/tracechild_amd64.cc index 655c9dbfa..47bd6aa17 100644 --- a/util/statetrace/arch/tracechild_amd64.cc +++ b/util/statetrace/arch/tracechild_amd64.cc @@ -40,83 +40,73 @@ using namespace std; const char * AMD64TraceChild::regNames[numregs] = { - //GPRs - "rax", "rbx", "rcx", "rdx", - //Index registers - "rsi", "rdi", - //Base pointer and stack pointer - "rbp", "rsp", - //New 64 bit mode registers - "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15", - //Segmentation registers - "cs", "ds", "es", "fs", "gs", "ss", "fs_base", "gs_base", - //PC - "rip", - //Flags - "eflags", - //MMX - "mmx0_0", "mmx0_1", - "mmx1_0", "mmx1_1", - "mmx2_0", "mmx2_1", - "mmx3_0", "mmx3_1", - "mmx4_0", "mmx4_1", - "mmx5_0", "mmx5_1", - "mmx6_0", "mmx6_1", - "mmx7_0", "mmx7_1", - //XMM - "xmm0_0", "xmm0_1", "xmm0_2", "xmm0_3", - "xmm1_0", "xmm1_1", "xmm1_2", "xmm1_3", - "xmm2_0", "xmm2_1", "xmm2_2", "xmm2_3", - "xmm3_0", "xmm3_1", "xmm3_2", "xmm3_3", - "xmm4_0", "xmm4_1", "xmm4_2", "xmm4_3", - "xmm5_0", "xmm5_1", "xmm5_2", "xmm5_3", - "xmm6_0", "xmm6_1", "xmm6_2", "xmm6_3", - "xmm7_0", "xmm7_1", "xmm7_2", "xmm7_3", - "xmm8_0", "xmm8_1", "xmm8_2", "xmm8_3", - "xmm9_0", "xmm9_1", "xmm9_2", "xmm9_3", - "xmm10_0", "xmm10_1", "xmm10_2", "xmm10_3", - "xmm11_0", "xmm11_1", "xmm11_2", "xmm11_3", - "xmm12_0", "xmm12_1", "xmm12_2", "xmm12_3", - "xmm13_0", "xmm13_1", "xmm13_2", "xmm13_3", - "xmm14_0", "xmm14_1", "xmm14_2", "xmm14_3", - "xmm15_0", "xmm15_1", "xmm15_2", "xmm15_3"}; + //GPRs + "rax", "rbx", "rcx", "rdx", + //Index registers + "rsi", "rdi", + //Base pointer and stack pointer + "rbp", "rsp", + //New 64 bit mode registers + "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15", + //Segmentation registers + "cs", "ds", "es", "fs", "gs", "ss", "fs_base", "gs_base", + //PC + "rip", + //Flags + "eflags", + //MMX + "mmx0_0", "mmx0_1", "mmx1_0", "mmx1_1", + "mmx2_0", "mmx2_1", "mmx3_0", "mmx3_1", + "mmx4_0", "mmx4_1", "mmx5_0", "mmx5_1", + "mmx6_0", "mmx6_1", "mmx7_0", "mmx7_1", + //XMM + "xmm0_0", "xmm0_1", "xmm0_2", "xmm0_3", + "xmm1_0", "xmm1_1", "xmm1_2", "xmm1_3", + "xmm2_0", "xmm2_1", "xmm2_2", "xmm2_3", + "xmm3_0", "xmm3_1", "xmm3_2", "xmm3_3", + "xmm4_0", "xmm4_1", "xmm4_2", "xmm4_3", + "xmm5_0", "xmm5_1", "xmm5_2", "xmm5_3", + "xmm6_0", "xmm6_1", "xmm6_2", "xmm6_3", + "xmm7_0", "xmm7_1", "xmm7_2", "xmm7_3", + "xmm8_0", "xmm8_1", "xmm8_2", "xmm8_3", + "xmm9_0", "xmm9_1", "xmm9_2", "xmm9_3", + "xmm10_0", "xmm10_1", "xmm10_2", "xmm10_3", + "xmm11_0", "xmm11_1", "xmm11_2", "xmm11_3", + "xmm12_0", "xmm12_1", "xmm12_2", "xmm12_3", + "xmm13_0", "xmm13_1", "xmm13_2", "xmm13_3", + "xmm14_0", "xmm14_1", "xmm14_2", "xmm14_3", + "xmm15_0", "xmm15_1", "xmm15_2", "xmm15_3"}; -bool AMD64TraceChild::sendState(int socket) +bool +AMD64TraceChild::sendState(int socket) { uint64_t regVal64 = 0; uint32_t regVal32 = 0; - for(int x = 0; x <= R15; x++) - { + for (int x = 0; x <= R15; x++) { regVal64 = getRegVal(x); - if(write(socket, ®Val64, sizeof(regVal64)) == -1) - { + if (write(socket, ®Val64, sizeof(regVal64)) == -1) { cerr << "Write failed! " << strerror(errno) << endl; tracing = false; return false; } } regVal64 = getRegVal(RIP); - if(write(socket, ®Val64, sizeof(regVal64)) == -1) - { + if (write(socket, ®Val64, sizeof(regVal64)) == -1) { cerr << "Write failed! " << strerror(errno) << endl; tracing = false; return false; } - for(int x = MMX0_0; x <= MMX7_1; x++) - { + for (int x = MMX0_0; x <= MMX7_1; x++) { regVal32 = getRegVal(x); - if(write(socket, ®Val32, sizeof(regVal32)) == -1) - { + if (write(socket, ®Val32, sizeof(regVal32)) == -1) { cerr << "Write failed! " << strerror(errno) << endl; tracing = false; return false; } } - for(int x = XMM0_0; x <= XMM15_3; x++) - { + for (int x = XMM0_0; x <= XMM15_3; x++) { regVal32 = getRegVal(x); - if(write(socket, ®Val32, sizeof(regVal32)) == -1) - { + if (write(socket, ®Val32, sizeof(regVal32)) == -1) { cerr << "Write failed! " << strerror(errno) << endl; tracing = false; return false; @@ -125,175 +115,178 @@ bool AMD64TraceChild::sendState(int socket) return true; } -int64_t AMD64TraceChild::getRegs(user_regs_struct & myregs, +int64_t +AMD64TraceChild::getRegs(user_regs_struct & myregs, user_fpregs_struct & myfpregs, int num) { assert(num < numregs && num >= 0); - switch(num) - { - //GPRs - case RAX: return myregs.rax; - case RBX: return myregs.rbx; - case RCX: return myregs.rcx; - case RDX: return myregs.rdx; - //Index registers - case RSI: return myregs.rsi; - case RDI: return myregs.rdi; - //Base pointer and stack pointer - case RBP: return myregs.rbp; - case RSP: return myregs.rsp; - //New 64 bit mode registers - case R8: return myregs.r8; - case R9: return myregs.r9; - case R10: return myregs.r10; - case R11: return myregs.r11; - case R12: return myregs.r12; - case R13: return myregs.r13; - case R14: return myregs.r14; - case R15: return myregs.r15; - //Segmentation registers - case CS: return myregs.cs; - case DS: return myregs.ds; - case ES: return myregs.es; - case FS: return myregs.fs; - case GS: return myregs.gs; - case SS: return myregs.ss; - case FS_BASE: return myregs.fs_base; - case GS_BASE: return myregs.gs_base; - //PC - case RIP: return myregs.rip; - //Flags - case EFLAGS: return myregs.eflags; - //MMX - case MMX0_0: return myfpregs.st_space[0]; - case MMX0_1: return myfpregs.st_space[1]; - case MMX1_0: return myfpregs.st_space[2]; - case MMX1_1: return myfpregs.st_space[3]; - case MMX2_0: return myfpregs.st_space[4]; - case MMX2_1: return myfpregs.st_space[5]; - case MMX3_0: return myfpregs.st_space[6]; - case MMX3_1: return myfpregs.st_space[7]; - case MMX4_0: return myfpregs.st_space[8]; - case MMX4_1: return myfpregs.st_space[9]; - case MMX5_0: return myfpregs.st_space[10]; - case MMX5_1: return myfpregs.st_space[11]; - case MMX6_0: return myfpregs.st_space[12]; - case MMX6_1: return myfpregs.st_space[13]; - case MMX7_0: return myfpregs.st_space[14]; - case MMX7_1: return myfpregs.st_space[15]; - //XMM - case XMM0_0: return myfpregs.xmm_space[0]; - case XMM0_1: return myfpregs.xmm_space[1]; - case XMM0_2: return myfpregs.xmm_space[2]; - case XMM0_3: return myfpregs.xmm_space[3]; - case XMM1_0: return myfpregs.xmm_space[4]; - case XMM1_1: return myfpregs.xmm_space[5]; - case XMM1_2: return myfpregs.xmm_space[6]; - case XMM1_3: return myfpregs.xmm_space[7]; - case XMM2_0: return myfpregs.xmm_space[8]; - case XMM2_1: return myfpregs.xmm_space[9]; - case XMM2_2: return myfpregs.xmm_space[10]; - case XMM2_3: return myfpregs.xmm_space[11]; - case XMM3_0: return myfpregs.xmm_space[12]; - case XMM3_1: return myfpregs.xmm_space[13]; - case XMM3_2: return myfpregs.xmm_space[14]; - case XMM3_3: return myfpregs.xmm_space[15]; - case XMM4_0: return myfpregs.xmm_space[16]; - case XMM4_1: return myfpregs.xmm_space[17]; - case XMM4_2: return myfpregs.xmm_space[18]; - case XMM4_3: return myfpregs.xmm_space[19]; - case XMM5_0: return myfpregs.xmm_space[20]; - case XMM5_1: return myfpregs.xmm_space[21]; - case XMM5_2: return myfpregs.xmm_space[22]; - case XMM5_3: return myfpregs.xmm_space[23]; - case XMM6_0: return myfpregs.xmm_space[24]; - case XMM6_1: return myfpregs.xmm_space[25]; - case XMM6_2: return myfpregs.xmm_space[26]; - case XMM6_3: return myfpregs.xmm_space[27]; - case XMM7_0: return myfpregs.xmm_space[28]; - case XMM7_1: return myfpregs.xmm_space[29]; - case XMM7_2: return myfpregs.xmm_space[30]; - case XMM7_3: return myfpregs.xmm_space[31]; - case XMM8_0: return myfpregs.xmm_space[32]; - case XMM8_1: return myfpregs.xmm_space[33]; - case XMM8_2: return myfpregs.xmm_space[34]; - case XMM8_3: return myfpregs.xmm_space[35]; - case XMM9_0: return myfpregs.xmm_space[36]; - case XMM9_1: return myfpregs.xmm_space[37]; - case XMM9_2: return myfpregs.xmm_space[38]; - case XMM9_3: return myfpregs.xmm_space[39]; - case XMM10_0: return myfpregs.xmm_space[40]; - case XMM10_1: return myfpregs.xmm_space[41]; - case XMM10_2: return myfpregs.xmm_space[42]; - case XMM10_3: return myfpregs.xmm_space[43]; - case XMM11_0: return myfpregs.xmm_space[44]; - case XMM11_1: return myfpregs.xmm_space[45]; - case XMM11_2: return myfpregs.xmm_space[46]; - case XMM11_3: return myfpregs.xmm_space[47]; - case XMM12_0: return myfpregs.xmm_space[48]; - case XMM12_1: return myfpregs.xmm_space[49]; - case XMM12_2: return myfpregs.xmm_space[50]; - case XMM12_3: return myfpregs.xmm_space[51]; - case XMM13_0: return myfpregs.xmm_space[52]; - case XMM13_1: return myfpregs.xmm_space[53]; - case XMM13_2: return myfpregs.xmm_space[54]; - case XMM13_3: return myfpregs.xmm_space[55]; - case XMM14_0: return myfpregs.xmm_space[56]; - case XMM14_1: return myfpregs.xmm_space[57]; - case XMM14_2: return myfpregs.xmm_space[58]; - case XMM14_3: return myfpregs.xmm_space[59]; - case XMM15_0: return myfpregs.xmm_space[60]; - case XMM15_1: return myfpregs.xmm_space[61]; - case XMM15_2: return myfpregs.xmm_space[62]; - case XMM15_3: return myfpregs.xmm_space[63]; - default: - assert(0); - return 0; + switch (num) { + //GPRs + case RAX: return myregs.rax; + case RBX: return myregs.rbx; + case RCX: return myregs.rcx; + case RDX: return myregs.rdx; + //Index registers + case RSI: return myregs.rsi; + case RDI: return myregs.rdi; + //Base pointer and stack pointer + case RBP: return myregs.rbp; + case RSP: return myregs.rsp; + //New 64 bit mode registers + case R8: return myregs.r8; + case R9: return myregs.r9; + case R10: return myregs.r10; + case R11: return myregs.r11; + case R12: return myregs.r12; + case R13: return myregs.r13; + case R14: return myregs.r14; + case R15: return myregs.r15; + //Segmentation registers + case CS: return myregs.cs; + case DS: return myregs.ds; + case ES: return myregs.es; + case FS: return myregs.fs; + case GS: return myregs.gs; + case SS: return myregs.ss; + case FS_BASE: return myregs.fs_base; + case GS_BASE: return myregs.gs_base; + //PC + case RIP: return myregs.rip; + //Flags + case EFLAGS: return myregs.eflags; + //MMX + case MMX0_0: return myfpregs.st_space[0]; + case MMX0_1: return myfpregs.st_space[1]; + case MMX1_0: return myfpregs.st_space[2]; + case MMX1_1: return myfpregs.st_space[3]; + case MMX2_0: return myfpregs.st_space[4]; + case MMX2_1: return myfpregs.st_space[5]; + case MMX3_0: return myfpregs.st_space[6]; + case MMX3_1: return myfpregs.st_space[7]; + case MMX4_0: return myfpregs.st_space[8]; + case MMX4_1: return myfpregs.st_space[9]; + case MMX5_0: return myfpregs.st_space[10]; + case MMX5_1: return myfpregs.st_space[11]; + case MMX6_0: return myfpregs.st_space[12]; + case MMX6_1: return myfpregs.st_space[13]; + case MMX7_0: return myfpregs.st_space[14]; + case MMX7_1: return myfpregs.st_space[15]; + //XMM + case XMM0_0: return myfpregs.xmm_space[0]; + case XMM0_1: return myfpregs.xmm_space[1]; + case XMM0_2: return myfpregs.xmm_space[2]; + case XMM0_3: return myfpregs.xmm_space[3]; + case XMM1_0: return myfpregs.xmm_space[4]; + case XMM1_1: return myfpregs.xmm_space[5]; + case XMM1_2: return myfpregs.xmm_space[6]; + case XMM1_3: return myfpregs.xmm_space[7]; + case XMM2_0: return myfpregs.xmm_space[8]; + case XMM2_1: return myfpregs.xmm_space[9]; + case XMM2_2: return myfpregs.xmm_space[10]; + case XMM2_3: return myfpregs.xmm_space[11]; + case XMM3_0: return myfpregs.xmm_space[12]; + case XMM3_1: return myfpregs.xmm_space[13]; + case XMM3_2: return myfpregs.xmm_space[14]; + case XMM3_3: return myfpregs.xmm_space[15]; + case XMM4_0: return myfpregs.xmm_space[16]; + case XMM4_1: return myfpregs.xmm_space[17]; + case XMM4_2: return myfpregs.xmm_space[18]; + case XMM4_3: return myfpregs.xmm_space[19]; + case XMM5_0: return myfpregs.xmm_space[20]; + case XMM5_1: return myfpregs.xmm_space[21]; + case XMM5_2: return myfpregs.xmm_space[22]; + case XMM5_3: return myfpregs.xmm_space[23]; + case XMM6_0: return myfpregs.xmm_space[24]; + case XMM6_1: return myfpregs.xmm_space[25]; + case XMM6_2: return myfpregs.xmm_space[26]; + case XMM6_3: return myfpregs.xmm_space[27]; + case XMM7_0: return myfpregs.xmm_space[28]; + case XMM7_1: return myfpregs.xmm_space[29]; + case XMM7_2: return myfpregs.xmm_space[30]; + case XMM7_3: return myfpregs.xmm_space[31]; + case XMM8_0: return myfpregs.xmm_space[32]; + case XMM8_1: return myfpregs.xmm_space[33]; + case XMM8_2: return myfpregs.xmm_space[34]; + case XMM8_3: return myfpregs.xmm_space[35]; + case XMM9_0: return myfpregs.xmm_space[36]; + case XMM9_1: return myfpregs.xmm_space[37]; + case XMM9_2: return myfpregs.xmm_space[38]; + case XMM9_3: return myfpregs.xmm_space[39]; + case XMM10_0: return myfpregs.xmm_space[40]; + case XMM10_1: return myfpregs.xmm_space[41]; + case XMM10_2: return myfpregs.xmm_space[42]; + case XMM10_3: return myfpregs.xmm_space[43]; + case XMM11_0: return myfpregs.xmm_space[44]; + case XMM11_1: return myfpregs.xmm_space[45]; + case XMM11_2: return myfpregs.xmm_space[46]; + case XMM11_3: return myfpregs.xmm_space[47]; + case XMM12_0: return myfpregs.xmm_space[48]; + case XMM12_1: return myfpregs.xmm_space[49]; + case XMM12_2: return myfpregs.xmm_space[50]; + case XMM12_3: return myfpregs.xmm_space[51]; + case XMM13_0: return myfpregs.xmm_space[52]; + case XMM13_1: return myfpregs.xmm_space[53]; + case XMM13_2: return myfpregs.xmm_space[54]; + case XMM13_3: return myfpregs.xmm_space[55]; + case XMM14_0: return myfpregs.xmm_space[56]; + case XMM14_1: return myfpregs.xmm_space[57]; + case XMM14_2: return myfpregs.xmm_space[58]; + case XMM14_3: return myfpregs.xmm_space[59]; + case XMM15_0: return myfpregs.xmm_space[60]; + case XMM15_1: return myfpregs.xmm_space[61]; + case XMM15_2: return myfpregs.xmm_space[62]; + case XMM15_3: return myfpregs.xmm_space[63]; + default: + assert(0); + return 0; } } -bool AMD64TraceChild::update(int pid) +bool +AMD64TraceChild::update(int pid) { oldregs = regs; oldfpregs = fpregs; - if(ptrace(PTRACE_GETREGS, pid, 0, ®s) != 0) - { + if (ptrace(PTRACE_GETREGS, pid, 0, ®s) != 0) { cerr << "update: " << strerror(errno) << endl; return false; } - if(ptrace(PTRACE_GETFPREGS, pid, 0, &fpregs) != 0) - { + if (ptrace(PTRACE_GETFPREGS, pid, 0, &fpregs) != 0) { cerr << "update: " << strerror(errno) << endl; return false; } - for(unsigned int x = 0; x < numregs; x++) + for (unsigned int x = 0; x < numregs; x++) regDiffSinceUpdate[x] = (getRegVal(x) != getOldRegVal(x)); return true; } AMD64TraceChild::AMD64TraceChild() { - for(unsigned int x = 0; x < numregs; x++) + for (unsigned int x = 0; x < numregs; x++) regDiffSinceUpdate[x] = false; } -int64_t AMD64TraceChild::getRegVal(int num) +int64_t +AMD64TraceChild::getRegVal(int num) { - return getRegs(regs, fpregs, num); + return getRegs(regs, fpregs, num); } -int64_t AMD64TraceChild::getOldRegVal(int num) +int64_t +AMD64TraceChild::getOldRegVal(int num) { - return getRegs(oldregs, oldfpregs, num); + return getRegs(oldregs, oldfpregs, num); } -char * AMD64TraceChild::printReg(int num) +char * +AMD64TraceChild::printReg(int num) { - sprintf(printBuffer, "0x%016lX", getRegVal(num)); - return printBuffer; + sprintf(printBuffer, "0x%016lX", getRegVal(num)); + return printBuffer; } -ostream & AMD64TraceChild::outputStartState(ostream & os) +ostream & +AMD64TraceChild::outputStartState(ostream & os) { uint64_t sp = getSP(); uint64_t pc = getPC(); @@ -313,13 +306,12 @@ ostream & AMD64TraceChild::outputStartState(ostream & os) //Output argv pointers int argCount = 0; uint64_t cargv; - do - { + do { cargv = ptrace(PTRACE_PEEKDATA, pid, sp, 0); sprintf(obuf, "0x%016lx: argv[%d] = 0x%016lx\n", sp, argCount++, cargv); - if(cargv) - if(highestInfo < cargv) + if (cargv) + if (highestInfo < cargv) highestInfo = cargv; os << obuf; sp += 8; @@ -328,8 +320,7 @@ ostream & AMD64TraceChild::outputStartState(ostream & os) //Output the envp pointers int envCount = 0; uint64_t cenvp; - do - { + do { cenvp = ptrace(PTRACE_PEEKDATA, pid, sp, 0); sprintf(obuf, "0x%016lx: envp[%d] = 0x%016lx\n", sp, envCount++, cenvp); @@ -337,8 +328,7 @@ ostream & AMD64TraceChild::outputStartState(ostream & os) sp += 8; } while(cenvp); uint64_t auxType, auxVal; - do - { + do { auxType = ptrace(PTRACE_PEEKDATA, pid, sp, 0); sp += 8; auxVal = ptrace(PTRACE_PEEKDATA, pid, sp, 0); @@ -352,16 +342,13 @@ ostream & AMD64TraceChild::outputStartState(ostream & os) uint64_t buf; uint64_t currentStart = sp; bool clearedInitialPadding = false; - do - { + do { buf = ptrace(PTRACE_PEEKDATA, pid, sp, 0); char * cbuf = (char *)&buf; - for(int x = 0; x < sizeof(uint64_t); x++) - { - if(cbuf[x]) + for (int x = 0; x < sizeof(uint64_t); x++) { + if (cbuf[x]) current += cbuf[x]; - else - { + else { sprintf(obuf, "0x%016lx: \"%s\"\n", currentStart, current.c_str()); os << obuf; @@ -371,23 +358,21 @@ ostream & AMD64TraceChild::outputStartState(ostream & os) } sp += 8; clearedInitialPadding = clearedInitialPadding || buf != 0; - } while(!clearedInitialPadding || buf != 0 || sp <= highestInfo); + } while (!clearedInitialPadding || buf != 0 || sp <= highestInfo); return os; } -uint64_t AMD64TraceChild::findSyscall() +uint64_t +AMD64TraceChild::findSyscall() { uint64_t rip = getPC(); bool foundOpcode = false; bool twoByteOpcode = false; - for(;;) - { + for (;;) { uint64_t buf = ptrace(PTRACE_PEEKDATA, pid, rip, 0); - for(int i = 0; i < sizeof(uint64_t); i++) - { + for (int i = 0; i < sizeof(uint64_t); i++) { unsigned char byte = buf & 0xFF; - if(!foundOpcode) - { + if (!foundOpcode) { if(!(byte == 0x66 || //operand override byte == 0x67 || //address override byte == 0x2E || //cs @@ -400,28 +385,24 @@ uint64_t AMD64TraceChild::findSyscall() byte == 0xF2 || //repe byte == 0xF3 || //repne (byte >= 0x40 && byte <= 0x4F) // REX - )) - { + )) { foundOpcode = true; } } - if(foundOpcode) - { - if(twoByteOpcode) - { + if (foundOpcode) { + if (twoByteOpcode) { //SYSCALL or SYSENTER - if(byte == 0x05 || byte == 0x34) + if (byte == 0x05 || byte == 0x34) return rip + 1; else return 0; } - if(!twoByteOpcode) - { - if(byte == 0xCC) // INT3 + if (!twoByteOpcode) { + if (byte == 0xCC) // INT3 return rip + 1; - else if(byte == 0xCD) // INT with byte immediate + else if (byte == 0xCD) // INT with byte immediate return rip + 2; - else if(byte == 0x0F) // two byte opcode prefix + else if (byte == 0x0F) // two byte opcode prefix twoByteOpcode = true; else return 0; @@ -433,11 +414,11 @@ uint64_t AMD64TraceChild::findSyscall() } } -bool AMD64TraceChild::step() +bool +AMD64TraceChild::step() { uint64_t ripAfterSyscall = findSyscall(); - if(ripAfterSyscall) - { + if (ripAfterSyscall) { //Get the original contents of memory uint64_t buf = ptrace(PTRACE_PEEKDATA, pid, ripAfterSyscall, 0); //Patch the first two bytes of the memory immediately after this with @@ -452,13 +433,10 @@ bool AMD64TraceChild::step() ptraceSingleStep(); //Put things back to the way they started ptrace(PTRACE_POKEDATA, pid, ripAfterSyscall, buf); - } - else - { + } else { //Get all the way past repe and repne string instructions in one shot. uint64_t newPC, origPC = getPC(); - do - { + do { ptraceSingleStep(); newPC = getPC(); } while(newPC == origPC); @@ -467,5 +445,5 @@ bool AMD64TraceChild::step() TraceChild * genTraceChild() { - return new AMD64TraceChild; + return new AMD64TraceChild; } diff --git a/util/statetrace/arch/tracechild_amd64.hh b/util/statetrace/arch/tracechild_amd64.hh index 9b33caaf1..6ed90d292 100644 --- a/util/statetrace/arch/tracechild_amd64.hh +++ b/util/statetrace/arch/tracechild_amd64.hh @@ -108,18 +108,21 @@ class AMD64TraceChild : public TraceChild bool sendState(int socket); - int getNumRegs() + int + getNumRegs() { return numregs; } - bool diffSinceUpdate(int num) + bool + diffSinceUpdate(int num) { assert(num < numregs && num >= 0); return regDiffSinceUpdate[num]; } - std::string getRegName(int num) + std::string + getRegName(int num) { assert(num < numregs && num >= 0); return regNames[num]; diff --git a/util/statetrace/arch/tracechild_arm.cc b/util/statetrace/arch/tracechild_arm.cc index b03cb208b..2d38a9d00 100644 --- a/util/statetrace/arch/tracechild_arm.cc +++ b/util/statetrace/arch/tracechild_arm.cc @@ -68,7 +68,8 @@ ARMTraceChild::ARMTraceChild() } } -bool ARMTraceChild::sendState(int socket) +bool +ARMTraceChild::sendState(int socket) { uint32_t regVal = 0; uint32_t message[numregs + 1]; @@ -98,43 +99,48 @@ bool ARMTraceChild::sendState(int socket) return true; } -uint32_t ARMTraceChild::getRegs(user_regs &myregs, int num) +uint32_t +ARMTraceChild::getRegs(user_regs &myregs, int num) { assert(num < numregs && num >= 0); return myregs.uregs[num]; } -bool ARMTraceChild::update(int pid) +bool +ARMTraceChild::update(int pid) { oldregs = regs; - if(ptrace(PTRACE_GETREGS, pid, 0, ®s) != 0) - { + if (ptrace(PTRACE_GETREGS, pid, 0, ®s) != 0) { cerr << "update: " << strerror(errno) << endl; return false; } - for(unsigned int x = 0; x < numregs; x++) + for (unsigned int x = 0; x < numregs; x++) regDiffSinceUpdate[x] = (getRegVal(x) != getOldRegVal(x)); return true; } -int64_t ARMTraceChild::getRegVal(int num) +int64_t +ARMTraceChild::getRegVal(int num) { - return getRegs(regs, num); + return getRegs(regs, num); } -int64_t ARMTraceChild::getOldRegVal(int num) +int64_t +ARMTraceChild::getOldRegVal(int num) { - return getRegs(oldregs, num); + return getRegs(oldregs, num); } -char * ARMTraceChild::printReg(int num) +char * +ARMTraceChild::printReg(int num) { - sprintf(printBuffer, "0x%08X", (uint32_t)getRegVal(num)); - return printBuffer; + sprintf(printBuffer, "0x%08X", (uint32_t)getRegVal(num)); + return printBuffer; } -ostream & ARMTraceChild::outputStartState(ostream & os) +ostream & +ARMTraceChild::outputStartState(ostream & os) { uint32_t sp = getSP(); uint32_t pc = getPC(); @@ -154,8 +160,7 @@ ostream & ARMTraceChild::outputStartState(ostream & os) //Output argv pointers int argCount = 0; int32_t cargv; - do - { + do { cargv = ptrace(PTRACE_PEEKDATA, pid, sp, 0); sprintf(obuf, "0x%08x: argv[%d] = 0x%08x\n", sp, argCount++, cargv); @@ -169,8 +174,7 @@ ostream & ARMTraceChild::outputStartState(ostream & os) //Output the envp pointers int envCount = 0; uint32_t cenvp; - do - { + do { cenvp = ptrace(PTRACE_PEEKDATA, pid, sp, 0); sprintf(obuf, "0x%08x: envp[%d] = 0x%08x\n", sp, envCount++, cenvp); @@ -178,8 +182,7 @@ ostream & ARMTraceChild::outputStartState(ostream & os) sp += 4; } while(cenvp); uint32_t auxType, auxVal; - do - { + do { auxType = ptrace(PTRACE_PEEKDATA, pid, sp, 0); sp += 4; auxVal = ptrace(PTRACE_PEEKDATA, pid, sp, 0); @@ -193,16 +196,13 @@ ostream & ARMTraceChild::outputStartState(ostream & os) uint32_t buf; uint32_t currentStart = sp; bool clearedInitialPadding = false; - do - { + do { buf = ptrace(PTRACE_PEEKDATA, pid, sp, 0); char * cbuf = (char *)&buf; - for(int x = 0; x < sizeof(uint32_t); x++) - { - if(cbuf[x]) + for (int x = 0; x < sizeof(uint32_t); x++) { + if (cbuf[x]) current += cbuf[x]; - else - { + else { sprintf(obuf, "0x%08x: \"%s\"\n", currentStart, current.c_str()); os << obuf; @@ -216,7 +216,8 @@ ostream & ARMTraceChild::outputStartState(ostream & os) return os; } -bool ARMTraceChild::step() +bool +ARMTraceChild::step() { const uint32_t bkpt_inst = 0xe7f001f0; @@ -258,7 +259,8 @@ bool ARMTraceChild::step() } -TraceChild * genTraceChild() +TraceChild * +genTraceChild() { return new ARMTraceChild; } diff --git a/util/statetrace/arch/tracechild_arm.hh b/util/statetrace/arch/tracechild_arm.hh index 79eccd891..cd998ddaa 100644 --- a/util/statetrace/arch/tracechild_arm.hh +++ b/util/statetrace/arch/tracechild_arm.hh @@ -84,18 +84,21 @@ class ARMTraceChild : public TraceChild ARMTraceChild(); bool sendState(int socket); - int getNumRegs() + int + getNumRegs() { return numregs; } - bool diffSinceUpdate(int num) + bool + diffSinceUpdate(int num) { assert(num < numregs && num >= 0); return regDiffSinceUpdate[num]; } - std::string getRegName(int num) + std::string + getRegName(int num) { assert(num < numregs && num >= 0); return regNames[num]; @@ -106,14 +109,16 @@ class ARMTraceChild : public TraceChild bool step(); - uint64_t getPC() + uint64_t + getPC() { - return getRegVal(PC); + return getRegVal(PC); } - uint64_t getSP() + uint64_t + getSP() { - return getRegVal(SP); + return getRegVal(SP); } char * printReg(int num); diff --git a/util/statetrace/arch/tracechild_i386.cc b/util/statetrace/arch/tracechild_i386.cc index 14c22c7f0..81264483a 100644 --- a/util/statetrace/arch/tracechild_i386.cc +++ b/util/statetrace/arch/tracechild_i386.cc @@ -38,83 +38,86 @@ using namespace std; char * I386TraceChild::regNames[numregs] = { - //GPRs - "eax", "ebx", "ecx", "edx", - //Index registers - "esi", "edi", - //Base pointer and stack pointer - "ebp", "esp", - //Segmentation registers - "cs", "ds", "es", "fs", "gs", "ss", - //PC - "eip"}; + //GPRs + "eax", "ebx", "ecx", "edx", + //Index registers + "esi", "edi", + //Base pointer and stack pointer + "ebp", "esp", + //Segmentation registers + "cs", "ds", "es", "fs", "gs", "ss", + //PC + "eip"}; -int64_t I386TraceChild::getRegs(user_regs_struct & myregs, int num) +int64_t +I386TraceChild::getRegs(user_regs_struct & myregs, int num) { - assert(num < numregs && num >= 0); - switch(num) - { - //GPRs - case EAX: return myregs.eax; - case EBX: return myregs.ebx; - case ECX: return myregs.ecx; - case EDX: return myregs.edx; - //Index registers - case ESI: return myregs.esi; - case EDI: return myregs.edi; - //Base pointer and stack pointer - case EBP: return myregs.ebp; - case ESP: return myregs.esp; - //Segmentation registers - case CS: return myregs.cs; - case DS: return myregs.ds; - case ES: return myregs.es; - case FS: return myregs.fs; - case GS: return myregs.gs; - case SS: return myregs.ss; - //PC - case EIP: return myregs.eip; - default: - assert(0); - return 0; - } + assert(num < numregs && num >= 0); + switch (num) { + //GPRs + case EAX: return myregs.eax; + case EBX: return myregs.ebx; + case ECX: return myregs.ecx; + case EDX: return myregs.edx; + //Index registers + case ESI: return myregs.esi; + case EDI: return myregs.edi; + //Base pointer and stack pointer + case EBP: return myregs.ebp; + case ESP: return myregs.esp; + //Segmentation registers + case CS: return myregs.cs; + case DS: return myregs.ds; + case ES: return myregs.es; + case FS: return myregs.fs; + case GS: return myregs.gs; + case SS: return myregs.ss; + //PC + case EIP: return myregs.eip; + default: + assert(0); + return 0; + } } -bool I386TraceChild::update(int pid) +bool +I386TraceChild::update(int pid) { - oldregs = regs; - if(ptrace(PTRACE_GETREGS, pid, 0, ®s) != 0) - return false; - for(unsigned int x = 0; x < numregs; x++) - { - regDiffSinceUpdate[x] = - (getRegVal(x) != getOldRegVal(x)); - } + oldregs = regs; + if (ptrace(PTRACE_GETREGS, pid, 0, ®s) != 0) + return false; + for (unsigned int x = 0; x < numregs; x++) { + regDiffSinceUpdate[x] = (getRegVal(x) != getOldRegVal(x)); + } } I386TraceChild::I386TraceChild() { - for(unsigned int x = 0; x < numregs; x++) - regDiffSinceUpdate[x] = false; + for (unsigned int x = 0; x < numregs; x++) + regDiffSinceUpdate[x] = false; } -int64_t I386TraceChild::getRegVal(int num) +int64_t +I386TraceChild::getRegVal(int num) { - return getRegs(regs, num); + return getRegs(regs, num); } -int64_t I386TraceChild::getOldRegVal(int num) +int64_t +I386TraceChild::getOldRegVal(int num) { - return getRegs(oldregs, num); + return getRegs(oldregs, num); } -char * I386TraceChild::printReg(int num) +char * +I386TraceChild::printReg(int num) { - sprintf(printBuffer, "0x%08X", getRegVal(num)); - return printBuffer; + sprintf(printBuffer, "0x%08X", getRegVal(num)); + return printBuffer; } -TraceChild * genTraceChild() +TraceChild * +genTraceChild() { - return new I386TraceChild; + return new I386TraceChild; } diff --git a/util/statetrace/arch/tracechild_i386.hh b/util/statetrace/arch/tracechild_i386.hh index e1bdf718f..ccdd87058 100644 --- a/util/statetrace/arch/tracechild_i386.hh +++ b/util/statetrace/arch/tracechild_i386.hh @@ -41,65 +41,69 @@ class I386TraceChild : public TraceChild { -public: - enum RegNum - { - //GPRs - EAX, EBX, ECX, EDX, - //Index registers - ESI, EDI, - //Base pointer and stack pointer - EBP, ESP, - //Segmentation registers - CS, DS, ES, FS, GS, SS, - //PC - EIP, - numregs - }; -private: - char printBuffer [256]; - static char * regNames[numregs]; - int64_t getRegs(user_regs_struct & myregs, int num); - user_regs_struct regs; - user_regs_struct oldregs; - bool regDiffSinceUpdate[numregs]; + public: + enum RegNum + { + //GPRs + EAX, EBX, ECX, EDX, + //Index registers + ESI, EDI, + //Base pointer and stack pointer + EBP, ESP, + //Segmentation registers + CS, DS, ES, FS, GS, SS, + //PC + EIP, + numregs + }; + private: + char printBuffer [256]; + static char * regNames[numregs]; + int64_t getRegs(user_regs_struct & myregs, int num); + user_regs_struct regs; + user_regs_struct oldregs; + bool regDiffSinceUpdate[numregs]; -protected: - bool update(int pid); + protected: + bool update(int pid); -public: + public: - I386TraceChild(); + I386TraceChild(); - int getNumRegs() - { - return numregs; - } + int + getNumRegs() + { + return numregs; + } - bool diffSinceUpdate(int num) - { - assert(num < numregs && num >= 0); - return regDiffSinceUpdate[num]; - } + bool + diffSinceUpdate(int num) + { + assert(num < numregs && num >= 0); + return regDiffSinceUpdate[num]; + } - std::string getRegName(int num) - { - assert(num < numregs && num >= 0); - return regNames[num]; - } + std::string + getRegName(int num) + { + assert(num < numregs && num >= 0); + return regNames[num]; + } - int64_t getRegVal(int num); - int64_t getOldRegVal(int num); - uint64_t getPC() {return getRegVal(EIP);} - uint64_t getSP() {return getRegVal(ESP);} - std::ostream & outputStartState(std::ostream & output) - { - output << "Printing i386 initial state not yet implemented" - << std::endl; - return output; - } + int64_t getRegVal(int num); + int64_t getOldRegVal(int num); + uint64_t getPC() {return getRegVal(EIP);} + uint64_t getSP() {return getRegVal(ESP);} + std::ostream & + outputStartState(std::ostream & output) + { + output << "Printing i386 initial state not yet implemented" + << std::endl; + return output; + } - char * printReg(int num); + char * printReg(int num); }; #endif diff --git a/util/statetrace/arch/tracechild_sparc.cc b/util/statetrace/arch/tracechild_sparc.cc index f60f9916b..405c36cd7 100644 --- a/util/statetrace/arch/tracechild_sparc.cc +++ b/util/statetrace/arch/tracechild_sparc.cc @@ -54,36 +54,32 @@ string SparcTraceChild::regNames[numregs] = { //Miscelaneous "fsr", "fprs", "pc", "npc", "y", "cwp", "pstate", "asi", "ccr"}; -bool SparcTraceChild::sendState(int socket) +bool +SparcTraceChild::sendState(int socket) { uint64_t regVal = 0; - for(int x = 0; x <= I7; x++) - { + for (int x = 0; x <= I7; x++) { regVal = getRegVal(x); - if(write(socket, ®Val, sizeof(regVal)) == -1) - { + if (write(socket, ®Val, sizeof(regVal)) == -1) { cerr << "Write failed! " << strerror(errno) << endl; tracing = false; return false; } } regVal = getRegVal(PC); - if(write(socket, ®Val, sizeof(regVal)) == -1) - { + if (write(socket, ®Val, sizeof(regVal)) == -1) { cerr << "Write failed! " << strerror(errno) << endl; tracing = false; return false; } regVal = getRegVal(NPC); - if(write(socket, ®Val, sizeof(regVal)) == -1) - { + if (write(socket, ®Val, sizeof(regVal)) == -1) { cerr << "Write failed! " << strerror(errno) << endl; tracing = false; return false; } regVal = getRegVal(CCR); - if(write(socket, ®Val, sizeof(regVal)) == -1) - { + if (write(socket, ®Val, sizeof(regVal)) == -1) { cerr << "Write failed! " << strerror(errno) << endl; tracing = false; return false; @@ -91,141 +87,141 @@ bool SparcTraceChild::sendState(int socket) return true; } -int64_t getRegs(regs & myregs, fpu & myfpu, - uint64_t * locals, uint64_t * inputs, int num) +int64_t +getRegs(regs & myregs, fpu & myfpu, uint64_t * locals, + uint64_t * inputs, int num) { assert(num < SparcTraceChild::numregs && num >= 0); - switch(num) - { - //Global registers - case SparcTraceChild::G0: return 0; - case SparcTraceChild::G1: return myregs.r_g1; - case SparcTraceChild::G2: return myregs.r_g2; - case SparcTraceChild::G3: return myregs.r_g3; - case SparcTraceChild::G4: return myregs.r_g4; - case SparcTraceChild::G5: return myregs.r_g5; - case SparcTraceChild::G6: return myregs.r_g6; - case SparcTraceChild::G7: return myregs.r_g7; - //Output registers - case SparcTraceChild::O0: return myregs.r_o0; - case SparcTraceChild::O1: return myregs.r_o1; - case SparcTraceChild::O2: return myregs.r_o2; - case SparcTraceChild::O3: return myregs.r_o3; - case SparcTraceChild::O4: return myregs.r_o4; - case SparcTraceChild::O5: return myregs.r_o5; - case SparcTraceChild::O6: return myregs.r_o6; - case SparcTraceChild::O7: return myregs.r_o7; - //Local registers - case SparcTraceChild::L0: return locals[0]; - case SparcTraceChild::L1: return locals[1]; - case SparcTraceChild::L2: return locals[2]; - case SparcTraceChild::L3: return locals[3]; - case SparcTraceChild::L4: return locals[4]; - case SparcTraceChild::L5: return locals[5]; - case SparcTraceChild::L6: return locals[6]; - case SparcTraceChild::L7: return locals[7]; - //Input registers - case SparcTraceChild::I0: return inputs[0]; - case SparcTraceChild::I1: return inputs[1]; - case SparcTraceChild::I2: return inputs[2]; - case SparcTraceChild::I3: return inputs[3]; - case SparcTraceChild::I4: return inputs[4]; - case SparcTraceChild::I5: return inputs[5]; - case SparcTraceChild::I6: return inputs[6]; - case SparcTraceChild::I7: return inputs[7]; - //Floating point - case SparcTraceChild::F0: return myfpu.f_fpstatus.fpu_fr[0]; - case SparcTraceChild::F2: return myfpu.f_fpstatus.fpu_fr[1]; - case SparcTraceChild::F4: return myfpu.f_fpstatus.fpu_fr[2]; - case SparcTraceChild::F6: return myfpu.f_fpstatus.fpu_fr[3]; - case SparcTraceChild::F8: return myfpu.f_fpstatus.fpu_fr[4]; - case SparcTraceChild::F10: return myfpu.f_fpstatus.fpu_fr[5]; - case SparcTraceChild::F12: return myfpu.f_fpstatus.fpu_fr[6]; - case SparcTraceChild::F14: return myfpu.f_fpstatus.fpu_fr[7]; - case SparcTraceChild::F16: return myfpu.f_fpstatus.fpu_fr[8]; - case SparcTraceChild::F18: return myfpu.f_fpstatus.fpu_fr[9]; - case SparcTraceChild::F20: return myfpu.f_fpstatus.fpu_fr[10]; - case SparcTraceChild::F22: return myfpu.f_fpstatus.fpu_fr[11]; - case SparcTraceChild::F24: return myfpu.f_fpstatus.fpu_fr[12]; - case SparcTraceChild::F26: return myfpu.f_fpstatus.fpu_fr[13]; - case SparcTraceChild::F28: return myfpu.f_fpstatus.fpu_fr[14]; - case SparcTraceChild::F30: return myfpu.f_fpstatus.fpu_fr[15]; - case SparcTraceChild::F32: return myfpu.f_fpstatus.fpu_fr[16]; - case SparcTraceChild::F34: return myfpu.f_fpstatus.fpu_fr[17]; - case SparcTraceChild::F36: return myfpu.f_fpstatus.fpu_fr[18]; - case SparcTraceChild::F38: return myfpu.f_fpstatus.fpu_fr[19]; - case SparcTraceChild::F40: return myfpu.f_fpstatus.fpu_fr[20]; - case SparcTraceChild::F42: return myfpu.f_fpstatus.fpu_fr[21]; - case SparcTraceChild::F44: return myfpu.f_fpstatus.fpu_fr[22]; - case SparcTraceChild::F46: return myfpu.f_fpstatus.fpu_fr[23]; - case SparcTraceChild::F48: return myfpu.f_fpstatus.fpu_fr[24]; - case SparcTraceChild::F50: return myfpu.f_fpstatus.fpu_fr[25]; - case SparcTraceChild::F52: return myfpu.f_fpstatus.fpu_fr[26]; - case SparcTraceChild::F54: return myfpu.f_fpstatus.fpu_fr[27]; - case SparcTraceChild::F56: return myfpu.f_fpstatus.fpu_fr[28]; - case SparcTraceChild::F58: return myfpu.f_fpstatus.fpu_fr[29]; - case SparcTraceChild::F60: return myfpu.f_fpstatus.fpu_fr[30]; - case SparcTraceChild::F62: return myfpu.f_fpstatus.fpu_fr[31]; - //Miscelaneous - case SparcTraceChild::FSR: return myfpu.f_fpstatus.Fpu_fsr; - case SparcTraceChild::FPRS: return myregs.r_fprs; - case SparcTraceChild::PC: return myregs.r_tpc; - case SparcTraceChild::NPC: return myregs.r_tnpc; - case SparcTraceChild::Y: return myregs.r_y; - case SparcTraceChild::CWP: - return (myregs.r_tstate >> 0) & ((1 << 5) - 1); - case SparcTraceChild::PSTATE: - return (myregs.r_tstate >> 8) & ((1 << 13) - 1); - case SparcTraceChild::ASI: - return (myregs.r_tstate >> 24) & ((1 << 8) - 1); - case SparcTraceChild::CCR: - return (myregs.r_tstate >> 32) & ((1 << 8) - 1); - default: - assert(0); - return 0; + switch (num) { + //Global registers + case SparcTraceChild::G0: return 0; + case SparcTraceChild::G1: return myregs.r_g1; + case SparcTraceChild::G2: return myregs.r_g2; + case SparcTraceChild::G3: return myregs.r_g3; + case SparcTraceChild::G4: return myregs.r_g4; + case SparcTraceChild::G5: return myregs.r_g5; + case SparcTraceChild::G6: return myregs.r_g6; + case SparcTraceChild::G7: return myregs.r_g7; + //Output registers + case SparcTraceChild::O0: return myregs.r_o0; + case SparcTraceChild::O1: return myregs.r_o1; + case SparcTraceChild::O2: return myregs.r_o2; + case SparcTraceChild::O3: return myregs.r_o3; + case SparcTraceChild::O4: return myregs.r_o4; + case SparcTraceChild::O5: return myregs.r_o5; + case SparcTraceChild::O6: return myregs.r_o6; + case SparcTraceChild::O7: return myregs.r_o7; + //Local registers + case SparcTraceChild::L0: return locals[0]; + case SparcTraceChild::L1: return locals[1]; + case SparcTraceChild::L2: return locals[2]; + case SparcTraceChild::L3: return locals[3]; + case SparcTraceChild::L4: return locals[4]; + case SparcTraceChild::L5: return locals[5]; + case SparcTraceChild::L6: return locals[6]; + case SparcTraceChild::L7: return locals[7]; + //Input registers + case SparcTraceChild::I0: return inputs[0]; + case SparcTraceChild::I1: return inputs[1]; + case SparcTraceChild::I2: return inputs[2]; + case SparcTraceChild::I3: return inputs[3]; + case SparcTraceChild::I4: return inputs[4]; + case SparcTraceChild::I5: return inputs[5]; + case SparcTraceChild::I6: return inputs[6]; + case SparcTraceChild::I7: return inputs[7]; + //Floating point + case SparcTraceChild::F0: return myfpu.f_fpstatus.fpu_fr[0]; + case SparcTraceChild::F2: return myfpu.f_fpstatus.fpu_fr[1]; + case SparcTraceChild::F4: return myfpu.f_fpstatus.fpu_fr[2]; + case SparcTraceChild::F6: return myfpu.f_fpstatus.fpu_fr[3]; + case SparcTraceChild::F8: return myfpu.f_fpstatus.fpu_fr[4]; + case SparcTraceChild::F10: return myfpu.f_fpstatus.fpu_fr[5]; + case SparcTraceChild::F12: return myfpu.f_fpstatus.fpu_fr[6]; + case SparcTraceChild::F14: return myfpu.f_fpstatus.fpu_fr[7]; + case SparcTraceChild::F16: return myfpu.f_fpstatus.fpu_fr[8]; + case SparcTraceChild::F18: return myfpu.f_fpstatus.fpu_fr[9]; + case SparcTraceChild::F20: return myfpu.f_fpstatus.fpu_fr[10]; + case SparcTraceChild::F22: return myfpu.f_fpstatus.fpu_fr[11]; + case SparcTraceChild::F24: return myfpu.f_fpstatus.fpu_fr[12]; + case SparcTraceChild::F26: return myfpu.f_fpstatus.fpu_fr[13]; + case SparcTraceChild::F28: return myfpu.f_fpstatus.fpu_fr[14]; + case SparcTraceChild::F30: return myfpu.f_fpstatus.fpu_fr[15]; + case SparcTraceChild::F32: return myfpu.f_fpstatus.fpu_fr[16]; + case SparcTraceChild::F34: return myfpu.f_fpstatus.fpu_fr[17]; + case SparcTraceChild::F36: return myfpu.f_fpstatus.fpu_fr[18]; + case SparcTraceChild::F38: return myfpu.f_fpstatus.fpu_fr[19]; + case SparcTraceChild::F40: return myfpu.f_fpstatus.fpu_fr[20]; + case SparcTraceChild::F42: return myfpu.f_fpstatus.fpu_fr[21]; + case SparcTraceChild::F44: return myfpu.f_fpstatus.fpu_fr[22]; + case SparcTraceChild::F46: return myfpu.f_fpstatus.fpu_fr[23]; + case SparcTraceChild::F48: return myfpu.f_fpstatus.fpu_fr[24]; + case SparcTraceChild::F50: return myfpu.f_fpstatus.fpu_fr[25]; + case SparcTraceChild::F52: return myfpu.f_fpstatus.fpu_fr[26]; + case SparcTraceChild::F54: return myfpu.f_fpstatus.fpu_fr[27]; + case SparcTraceChild::F56: return myfpu.f_fpstatus.fpu_fr[28]; + case SparcTraceChild::F58: return myfpu.f_fpstatus.fpu_fr[29]; + case SparcTraceChild::F60: return myfpu.f_fpstatus.fpu_fr[30]; + case SparcTraceChild::F62: return myfpu.f_fpstatus.fpu_fr[31]; + //Miscelaneous + case SparcTraceChild::FSR: return myfpu.f_fpstatus.Fpu_fsr; + case SparcTraceChild::FPRS: return myregs.r_fprs; + case SparcTraceChild::PC: return myregs.r_tpc; + case SparcTraceChild::NPC: return myregs.r_tnpc; + case SparcTraceChild::Y: return myregs.r_y; + case SparcTraceChild::CWP: + return (myregs.r_tstate >> 0) & ((1 << 5) - 1); + case SparcTraceChild::PSTATE: + return (myregs.r_tstate >> 8) & ((1 << 13) - 1); + case SparcTraceChild::ASI: + return (myregs.r_tstate >> 24) & ((1 << 8) - 1); + case SparcTraceChild::CCR: + return (myregs.r_tstate >> 32) & ((1 << 8) - 1); + default: + assert(0); + return 0; } } -bool SparcTraceChild::update(int pid) +bool +SparcTraceChild::update(int pid) { memcpy(&oldregs, &theregs, sizeof(regs)); memcpy(&oldfpregs, &thefpregs, sizeof(fpu)); memcpy(oldLocals, locals, 8 * sizeof(uint64_t)); memcpy(oldInputs, inputs, 8 * sizeof(uint64_t)); - if(ptrace(PTRACE_GETREGS, pid, &theregs, 0) != 0) - { + if (ptrace(PTRACE_GETREGS, pid, &theregs, 0) != 0) { cerr << "Update failed" << endl; return false; } uint64_t stackPointer = getSP(); uint64_t stackBias = 2047; bool v9 = stackPointer % 2; - for(unsigned int x = 0; x < 8; x++) - { + for (unsigned int x = 0; x < 8; x++) { uint64_t localAddr = stackPointer + (v9 ? (stackBias + x * 8) : (x * 4)); locals[x] = ptrace(PTRACE_PEEKTEXT, pid, localAddr, 0); - if(!v9) locals[x] >>= 32; + if (!v9) locals[x] >>= 32; uint64_t inputAddr = stackPointer + (v9 ? (stackBias + x * 8 + (8 * 8)) : (x * 4 + 8 * 4)); inputs[x] = ptrace(PTRACE_PEEKTEXT, pid, inputAddr, 0); - if(!v9) inputs[x] >>= 32; + if (!v9) inputs[x] >>= 32; } - if(ptrace(PTRACE_GETFPREGS, pid, &thefpregs, 0) != 0) + if (ptrace(PTRACE_GETFPREGS, pid, &thefpregs, 0) != 0) return false; - for(unsigned int x = 0; x < numregs; x++) + for (unsigned int x = 0; x < numregs; x++) regDiffSinceUpdate[x] = (getRegVal(x) != getOldRegVal(x)); return true; } SparcTraceChild::SparcTraceChild() { - for(unsigned int x = 0; x < numregs; x++) + for (unsigned int x = 0; x < numregs; x++) regDiffSinceUpdate[x] = false; } -int SparcTraceChild::getTargets(uint32_t inst, uint64_t pc, uint64_t npc, - uint64_t &target1, uint64_t &target2) +int +SparcTraceChild::getTargets(uint32_t inst, uint64_t pc, uint64_t npc, + uint64_t &target1, uint64_t &target2) { //We can identify the instruction categories we care about using the top //10 bits of the instruction, excluding the annul bit in the 3rd most @@ -245,28 +241,21 @@ int SparcTraceChild::getTargets(uint32_t inst, uint64_t pc, uint64_t npc, bool bcc = (cond & 0x7) && (sig == 0x1 || sig == 0x2 || sig == 0x3 || sig == 0x5 || sig == 0x6); - if(annul) - { - if(bcc) - { + if (annul) { + if (bcc) { target1 = npc; target2 = npc + 4; return 2; - } - else if(ba) - { + } else if(ba) { //This branches immediately to the effective address of the branch //which we'll have to calculate. uint64_t disp = 0; int64_t extender = 0; //Figure out how big the displacement field is, and grab the bits - if(sig == 0x1 || sig == 0x5) - { + if (sig == 0x1 || sig == 0x5) { disp = inst & ((1 << 19) - 1); extender = 1 << 18; - } - else - { + } else { disp = inst & ((1 << 22) - 1); extender = 1 << 21; } @@ -276,21 +265,19 @@ int SparcTraceChild::getTargets(uint32_t inst, uint64_t pc, uint64_t npc, //smart enough to turn this into a shift. disp *= 4; target1 = pc + disp; - } - else if(bn) + } else if(bn) target1 = npc + 4; else target1 = npc; return 1; - } - else - { + } else { target1 = npc; return 1; } } -bool SparcTraceChild::step() +bool +SparcTraceChild::step() { //Increment the count of the number of instructions executed instructions++; @@ -345,18 +332,17 @@ bool SparcTraceChild::step() uint64_t newBp1 = origBp1; newBp1 &= unalignedBp1 ? highMask : lowMask; newBp1 |= unalignedBp1 ? lowBreakInst : highBreakInst; - if(ptrace(PTRACE_POKETEXT, pid, alignedBp1, newBp1) != 0) + if (ptrace(PTRACE_POKETEXT, pid, alignedBp1, newBp1) != 0) cerr << "Poke failed" << endl; /* * Set the second breakpoint if necessary */ - if(numTargets == 2) - { + if (numTargets == 2) { origBp2 = ptrace(PTRACE_PEEKTEXT, pid, alignedBp2, 0); uint64_t newBp2 = origBp2; newBp2 &= unalignedBp2 ? highMask : lowMask; newBp2 |= unalignedBp2 ? lowBreakInst : highBreakInst; - if(ptrace(PTRACE_POKETEXT, pid, alignedBp2, newBp2) != 0) + if (ptrace(PTRACE_POKETEXT, pid, alignedBp2, newBp2) != 0) cerr << "Poke failed" << endl; } @@ -366,7 +352,7 @@ bool SparcTraceChild::step() //Note that the "addr" parameter is supposed to be ignored, but in at //least one version of the kernel, it must be 1 or it will set what //pc to continue from - if(ptrace(PTRACE_CONT, pid, 1, 0) != 0) + if (ptrace(PTRACE_CONT, pid, 1, 0) != 0) cerr << "Cont failed" << endl; doWait(); @@ -379,42 +365,42 @@ bool SparcTraceChild::step() * Put back the original contents of the childs address space in the * reverse order. */ - if(numTargets == 2) - { - if(ptrace(PTRACE_POKETEXT, pid, alignedBp2, origBp2) != 0) + if (numTargets == 2) { + if (ptrace(PTRACE_POKETEXT, pid, alignedBp2, origBp2) != 0) cerr << "Poke failed" << endl; } - if(ptrace(PTRACE_POKETEXT, pid, alignedBp1, origBp1) != 0) + if (ptrace(PTRACE_POKETEXT, pid, alignedBp1, origBp1) != 0) cerr << "Poke failed" << endl; } -int64_t SparcTraceChild::getRegVal(int num) +int64_t +SparcTraceChild::getRegVal(int num) { return getRegs(theregs, thefpregs, locals, inputs, num); } -int64_t SparcTraceChild::getOldRegVal(int num) +int64_t +SparcTraceChild::getOldRegVal(int num) { return getRegs(oldregs, oldfpregs, oldLocals, oldInputs, num); } -char * SparcTraceChild::printReg(int num) +char * +SparcTraceChild::printReg(int num) { sprintf(printBuffer, "0x%016llx", getRegVal(num)); return printBuffer; } -ostream & SparcTraceChild::outputStartState(ostream & os) +ostream & +SparcTraceChild::outputStartState(ostream & os) { bool v8 = false; uint64_t sp = getSP(); - if(sp % 2) - { + if (sp % 2) { os << "Detected a 64 bit executable.\n"; v8 = false; - } - else - { + } else { os << "Detected a 32 bit executable.\n"; v8 = true; } @@ -424,16 +410,14 @@ ostream & SparcTraceChild::outputStartState(ostream & os) os << obuf; sprintf(obuf, "Initial program counter = 0x%016llx\n", pc); os << obuf; - if(!v8) - { + if (!v8) { //Take out the stack bias sp += 2047; } //Output the window save area - for(unsigned int x = 0; x < 16; x++) - { + for (unsigned int x = 0; x < 16; x++) { uint64_t regspot = ptrace(PTRACE_PEEKDATA, pid, sp, 0); - if(v8) regspot = regspot >> 32; + if (v8) regspot = regspot >> 32; sprintf(obuf, "0x%016llx: Window save %d = 0x%016llx\n", sp, x+1, regspot); os << obuf; @@ -441,17 +425,16 @@ ostream & SparcTraceChild::outputStartState(ostream & os) } //Output the argument count uint64_t cargc = ptrace(PTRACE_PEEKDATA, pid, sp, 0); - if(v8) cargc = cargc >> 32; + if (v8) cargc = cargc >> 32; sprintf(obuf, "0x%016llx: Argc = 0x%016llx\n", sp, cargc); os << obuf; sp += v8 ? 4 : 8; //Output argv pointers int argCount = 0; uint64_t cargv; - do - { + do { cargv = ptrace(PTRACE_PEEKDATA, pid, sp, 0); - if(v8) cargv = cargv >> 32; + if (v8) cargv = cargv >> 32; sprintf(obuf, "0x%016llx: argv[%d] = 0x%016llx\n", sp, argCount++, cargv); os << obuf; @@ -460,43 +443,38 @@ ostream & SparcTraceChild::outputStartState(ostream & os) //Output the envp pointers int envCount = 0; uint64_t cenvp; - do - { + do { cenvp = ptrace(PTRACE_PEEKDATA, pid, sp, 0); - if(v8) cenvp = cenvp >> 32; + if (v8) cenvp = cenvp >> 32; sprintf(obuf, "0x%016llx: envp[%d] = 0x%016llx\n", sp, envCount++, cenvp); os << obuf; sp += v8 ? 4 : 8; - } while(cenvp); + } while (cenvp); uint64_t auxType, auxVal; - do - { + do { auxType = ptrace(PTRACE_PEEKDATA, pid, sp, 0); - if(v8) auxType = auxType >> 32; + if (v8) auxType = auxType >> 32; sp += (v8 ? 4 : 8); auxVal = ptrace(PTRACE_PEEKDATA, pid, sp, 0); - if(v8) auxVal = auxVal >> 32; + if (v8) auxVal = auxVal >> 32; sp += (v8 ? 4 : 8); sprintf(obuf, "0x%016llx: Auxiliary vector = {0x%016llx, 0x%016llx}\n", sp - 8, auxType, auxVal); os << obuf; - } while(auxType != 0 || auxVal != 0); + } while (auxType != 0 || auxVal != 0); //Print out the argument strings, environment strings, and file name. string current; uint64_t buf; uint64_t currentStart = sp; bool clearedInitialPadding = false; - do - { + do { buf = ptrace(PTRACE_PEEKDATA, pid, sp, 0); char * cbuf = (char *)&buf; - for(int x = 0; x < sizeof(uint32_t); x++) - { - if(cbuf[x]) + for (int x = 0; x < sizeof(uint32_t); x++) { + if (cbuf[x]) current += cbuf[x]; - else - { + else { sprintf(obuf, "0x%016llx: \"%s\"\n", currentStart, current.c_str()); os << obuf; @@ -506,11 +484,12 @@ ostream & SparcTraceChild::outputStartState(ostream & os) } sp += (v8 ? 4 : 8); clearedInitialPadding = clearedInitialPadding || buf != 0; - } while(!clearedInitialPadding || buf != 0); + } while (!clearedInitialPadding || buf != 0); return os; } -TraceChild * genTraceChild() +TraceChild * +genTraceChild() { return new SparcTraceChild; } diff --git a/util/statetrace/arch/tracechild_sparc.hh b/util/statetrace/arch/tracechild_sparc.hh index c3a53ac34..f88a51b69 100644 --- a/util/statetrace/arch/tracechild_sparc.hh +++ b/util/statetrace/arch/tracechild_sparc.hh @@ -45,89 +45,94 @@ struct regs; class SparcTraceChild : public TraceChild { -public: - enum RegNum - { - //Global registers - G0, G1, G2, G3, G4, G5, G6, G7, - //Output registers - O0, O1, O2, O3, O4, O5, O6, O7, - //Local registers - L0, L1, L2, L3, L4, L5, L6, L7, - //Input registers - I0, I1, I2, I3, I4, I5, I6, I7, - //Floating point - F0, F2, F4, F6, F8, F10, F12, F14, - F16, F18, F20, F22, F24, F26, F28, F30, - F32, F34, F36, F38, F40, F42, F44, F46, - F48, F50, F52, F54, F56, F58, F60, F62, - //Miscelaneous - FSR, FPRS, PC, NPC, Y, CWP, PSTATE, ASI, CCR, - numregs - }; -private: - char printBuffer[256]; - static std::string regNames[numregs]; - regs theregs; - regs oldregs; - fpu thefpregs; - fpu oldfpregs; - uint64_t locals[8]; - uint64_t oldLocals[8]; - uint64_t inputs[8]; - uint64_t oldInputs[8]; - bool regDiffSinceUpdate[numregs]; - - //This calculates where the pc might go after the current instruction. - //while this equals npc for most instructions, it doesn't for all of - //them. The return value is the number of actual potential targets. - int getTargets(uint32_t inst, uint64_t pc, uint64_t npc, - uint64_t &target1, uint64_t &target2); - -protected: - bool update(int pid); - -public: - SparcTraceChild(); - - bool sendState(int socket); - - int getNumRegs() - { - return numregs; - } - - bool diffSinceUpdate(int num) - { - assert(num < numregs && num >= 0); - return regDiffSinceUpdate[num]; - } - - std::string getRegName(int num) - { - assert(num < numregs && num >= 0); - return regNames[num]; - } - - int64_t getRegVal(int num); - - int64_t getOldRegVal(int num); - - bool step(); - - uint64_t getPC() - { - return getRegVal(PC); - } - - uint64_t getSP() - { - return getRegVal(O6); - } - - char * printReg(int num); - - std::ostream & outputStartState(std::ostream & os); + public: + enum RegNum + { + //Global registers + G0, G1, G2, G3, G4, G5, G6, G7, + //Output registers + O0, O1, O2, O3, O4, O5, O6, O7, + //Local registers + L0, L1, L2, L3, L4, L5, L6, L7, + //Input registers + I0, I1, I2, I3, I4, I5, I6, I7, + //Floating point + F0, F2, F4, F6, F8, F10, F12, F14, + F16, F18, F20, F22, F24, F26, F28, F30, + F32, F34, F36, F38, F40, F42, F44, F46, + F48, F50, F52, F54, F56, F58, F60, F62, + //Miscelaneous + FSR, FPRS, PC, NPC, Y, CWP, PSTATE, ASI, CCR, + numregs + }; + private: + char printBuffer[256]; + static std::string regNames[numregs]; + regs theregs; + regs oldregs; + fpu thefpregs; + fpu oldfpregs; + uint64_t locals[8]; + uint64_t oldLocals[8]; + uint64_t inputs[8]; + uint64_t oldInputs[8]; + bool regDiffSinceUpdate[numregs]; + + //This calculates where the pc might go after the current instruction. + //while this equals npc for most instructions, it doesn't for all of + //them. The return value is the number of actual potential targets. + int getTargets(uint32_t inst, uint64_t pc, uint64_t npc, + uint64_t &target1, uint64_t &target2); + + protected: + bool update(int pid); + + public: + SparcTraceChild(); + + bool sendState(int socket); + + int + getNumRegs() + { + return numregs; + } + + bool + diffSinceUpdate(int num) + { + assert(num < numregs && num >= 0); + return regDiffSinceUpdate[num]; + } + + std::string + getRegName(int num) + { + assert(num < numregs && num >= 0); + return regNames[num]; + } + + int64_t getRegVal(int num); + + int64_t getOldRegVal(int num); + + bool step(); + + uint64_t + getPC() + { + return getRegVal(PC); + } + + uint64_t + getSP() + { + return getRegVal(O6); + } + + char * printReg(int num); + + std::ostream & outputStartState(std::ostream & os); }; #endif diff --git a/util/statetrace/printer.cc b/util/statetrace/printer.cc index 178972ea8..7cfa775f8 100644 --- a/util/statetrace/printer.cc +++ b/util/statetrace/printer.cc @@ -42,12 +42,13 @@ int findEndOfNestingPrinter(string, int); PrinterType findSub(string, int &, int &); //This is pretty easy. Just find the closing parenthesis. -int findEndOfRegPrinter(string config, int startPos) +int +findEndOfRegPrinter(string config, int startPos) { int pos = config.find(")", startPos); - if(pos == string::npos) - { - cerr << "Couldn't find the closing parenthesis for a reg printer" << endl; + if (pos == string::npos) { + cerr << "Couldn't find the closing " << + "parenthesis for a reg printer" << endl; return 0; } return pos; @@ -55,32 +56,31 @@ int findEndOfRegPrinter(string config, int startPos) //This is a little harder. We need to make sure we don't //grab an ending parenthesis that belongs to the nesting printer. -int findEndOfNestingPrinter(string config, int startPos) +int +findEndOfNestingPrinter(string config, int startPos) { int length = config.length(); int pos = startPos; int endPos = length; int parenPos = config.find(")", pos); //If we didn't find an ending parenthesis at all, we're in trouble - if(parenPos == string::npos) - { - cerr << "Couldn't find the closing parenthesis for a nesting printer on the first try" << endl; + if (parenPos == string::npos) { + cerr << "Couldn't find the closing " << + "parenthesis for a nesting printer on the first try" << endl; return 0; } //Keep pulling out embedded stuff until we can't any more //we need to make sure we aren't skipping over the parenthesis //that ends -this- printer. PrinterType type = findSub(config, pos, endPos); - if(type == PRINTER_ERROR) + if (type == PRINTER_ERROR) return 0; - while(type != PRINTER_NONE && endPos >= parenPos) - { + while (type != PRINTER_NONE && endPos >= parenPos) { //Find the next closest ending parenthesis since we passed //up the last one parenPos = config.find(")", endPos + 1); //If we didn't find one, we're in trouble - if(parenPos == string::npos) - { + if (parenPos == string::npos) { cerr << "Couldn't find the closing parenthesis for a nested printer on later tries" << endl; return 0; } @@ -90,7 +90,7 @@ int findEndOfNestingPrinter(string config, int startPos) //Reset endPos so we search to the end of config endPos = length; type = findSub(config, pos, endPos); - if(type == PRINTER_ERROR) + if (type == PRINTER_ERROR) return 0; } //We ran out of embedded items, and we didn't pass up our last @@ -103,7 +103,8 @@ int findEndOfNestingPrinter(string config, int startPos) //startPos and endPos are set to the beginning and end of the sub printer //On entry, the search starts at index startPos and ends at either index //endPos or a closing parenthesis, whichever comes first -PrinterType findSub(string config, int & startPos, int & endPos) +PrinterType +findSub(string config, int & startPos, int & endPos) { int length = config.length(); //Figure out where the different types of sub printers may start @@ -111,28 +112,26 @@ PrinterType findSub(string config, int & startPos, int & endPos) int nestingPos = config.find("~(", startPos); //If a type of printer wasn't found, say it was found too far away. //This simplifies things later - if(regPos == string::npos) + if (regPos == string::npos) regPos = endPos; - if(nestingPos == string::npos) + if (nestingPos == string::npos) nestingPos = endPos; //If we find a closing paren, that marks the //end of the region we're searching. int closingPos = config.find(")", startPos); - if(closingPos != string::npos && + if (closingPos != string::npos && closingPos < regPos && closingPos < nestingPos) return PRINTER_NONE; //If we didn't find anything close enough, say so. - if(regPos >= endPos && nestingPos >= endPos) + if (regPos >= endPos && nestingPos >= endPos) return PRINTER_NONE; //At this point, we know that one of the options starts legally //We need to find which one is first and return that - if(regPos < nestingPos) - { + if (regPos < nestingPos) { int regEnd = findEndOfRegPrinter(config, regPos + 2); //If we couldn't find the end... - if(!regEnd) - { + if (!regEnd) { cerr << "Couldn't find the end of the reg printer" << endl; return PRINTER_ERROR; } @@ -140,13 +139,10 @@ PrinterType findSub(string config, int & startPos, int & endPos) startPos = regPos; endPos = regEnd; return PRINTER_REG; - } - else - { + } else { int nestingEnd = findEndOfNestingPrinter(config, nestingPos + 2); //If we couldn't find the end... - if(!nestingEnd) - { + if (!nestingEnd) { cerr << "Couldn't find the end of the nesting printer" << endl; return PRINTER_ERROR; } @@ -159,7 +155,8 @@ PrinterType findSub(string config, int & startPos, int & endPos) } //Set up a nesting printer. This printer can contain sub printers -bool NestingPrinter::configure(string config) +bool +NestingPrinter::configure(string config) { //Clear out any old stuff constStrings.clear(); @@ -170,14 +167,13 @@ bool NestingPrinter::configure(string config) int lastEndPos = -1; //Try to find a sub printer PrinterType type = findSub(config, startPos, endPos); - if(type == PRINTER_ERROR) - { + if (type == PRINTER_ERROR) { cerr << "Problem finding first sub printer" << endl; return false; } - while(type != PRINTER_NONE) - { - string prefix = config.substr(lastEndPos + 1, startPos - lastEndPos - 1); + while (type != PRINTER_NONE) { + string prefix = config.substr(lastEndPos + 1, + startPos - lastEndPos - 1); lastEndPos = endPos; constStrings.push_back(prefix); string subConfig, subString; @@ -185,15 +181,13 @@ bool NestingPrinter::configure(string config) //Set up the register printer RegPrinter * regPrinter = new RegPrinter(child); NestingPrinter * nestingPrinter = new NestingPrinter(child); - switch(type) - { + switch (type) { //If we found a plain register printer case PRINTER_REG: numPrinters++; //Get the register name subConfig = config.substr(startPos + 2, endPos - startPos - 2); - if(!regPrinter->configure(subConfig)) - { + if (!regPrinter->configure(subConfig)) { delete regPrinter; cerr << "Error configuring reg printer" << endl; return false; @@ -207,26 +201,23 @@ bool NestingPrinter::configure(string config) subConfig = config.substr(startPos + 2, endPos - startPos - 2); lastCommaPos = string::npos; commaPos = subConfig.find(","); - if(commaPos == string::npos) + if (commaPos == string::npos) return false; childSwitchVar = child->getRegNum(subConfig.substr(0, commaPos)); - if(childSwitchVar == -1) - { + if (childSwitchVar == -1) { cerr << "Couldn't configure switching variable!" << endl; return false; } //Eat up remaining arguments - while(commaPos != string::npos) - { + while (commaPos != string::npos) { lastCommaPos = commaPos; commaPos = subConfig.find(",", commaPos + 1); } - if(lastCommaPos != string::npos) - { - subConfig = subConfig.substr(lastCommaPos + 1, subConfig.length() - lastCommaPos - 1); + if (lastCommaPos != string::npos) { + subConfig = subConfig.substr(lastCommaPos + 1, + subConfig.length() - lastCommaPos - 1); } - if(!nestingPrinter->configure(subConfig)) - { + if (!nestingPrinter->configure(subConfig)) { delete nestingPrinter; cerr << "Error configuring nesting printer" << endl; return false; @@ -242,8 +233,7 @@ bool NestingPrinter::configure(string config) startPos = endPos + 1; endPos = length; type = findSub(config, startPos, endPos); - if(type == PRINTER_ERROR) - { + if (type == PRINTER_ERROR) { cerr << "Unable to find subprinters on later tries" << endl; return false; } @@ -254,12 +244,12 @@ bool NestingPrinter::configure(string config) return true; } -bool RegPrinter::configure(string config) +bool +RegPrinter::configure(string config) { //Figure out what our register number is based on the name we're given int num = child->getRegNum(config); - if(num == -1) - { + if (num == -1) { cerr << "Couldn't find register " << config << endl; return false; } @@ -267,13 +257,12 @@ bool RegPrinter::configure(string config) return true; } -ostream & NestingPrinter::writeOut(ostream & os) +ostream & +NestingPrinter::writeOut(ostream & os) { - if(switchVar == -1 || child->diffSinceUpdate(switchVar)) - { + if (switchVar == -1 || child->diffSinceUpdate(switchVar)) { int x; - for(x = 0; x < numPrinters; x++) - { + for (x = 0; x < numPrinters; x++) { os << constStrings[x]; os << printers[x]; } @@ -282,7 +271,8 @@ ostream & NestingPrinter::writeOut(ostream & os) return os; } -ostream & RegPrinter::writeOut(ostream & os) +ostream & +RegPrinter::writeOut(ostream & os) { os << child->printReg(intRegNum); return os; diff --git a/util/statetrace/printer.hh b/util/statetrace/printer.hh index db3b8c1b8..3e23cf425 100644 --- a/util/statetrace/printer.hh +++ b/util/statetrace/printer.hh @@ -79,12 +79,14 @@ class RegPrinter : public PrinterObject PrinterObject(newChild), intRegNum(num) {;} - void regNum(int num) + void + regNum(int num) { intRegNum = num; } - int regNum() + int + regNum() { return intRegNum; } @@ -94,14 +96,14 @@ class RegPrinter : public PrinterObject std::ostream & writeOut(std::ostream & os); }; -static inline std::ostream & operator << (std::ostream & os, - PrinterObject & printer) +static inline std::ostream & +operator << (std::ostream & os, PrinterObject & printer) { return printer.writeOut(os); } -static inline std::ostream & operator << (std::ostream & os, - PrinterPointer & printer) +static inline std::ostream & +operator << (std::ostream & os, PrinterPointer & printer) { return printer->writeOut(os); } diff --git a/util/statetrace/refcnt.hh b/util/statetrace/refcnt.hh index 6672d4a5f..d6c627b7a 100644 --- a/util/statetrace/refcnt.hh +++ b/util/statetrace/refcnt.hh @@ -55,18 +55,21 @@ class RefCountingPtr protected: T *data; - void copy(T *d) + void + copy(T *d) { data = d; if (data) data->incref(); } - void del() + void + del() { if (data) data->decref(); } - void set(T *d) + void + set(T *d) { if (data == d) return; diff --git a/util/statetrace/regstate.hh b/util/statetrace/regstate.hh index e97d535a3..ae23b58ca 100644 --- a/util/statetrace/regstate.hh +++ b/util/statetrace/regstate.hh @@ -36,23 +36,24 @@ class RegState { -protected: - virtual bool update(int pid) = 0; -public: - virtual int getNumRegs() = 0; - virtual bool diffSinceUpdate(int num) = 0; - virtual std::string getRegName(int num) = 0; - virtual int getRegNum(std::string name) - { - int numregs = getNumRegs(); - for(unsigned int x = 0; x < numregs; x++) - if(getRegName(x) == name) - return x; - return -1; - } - virtual int64_t getRegVal(int num) = 0; - virtual int64_t getOldRegVal(int num) = 0; - virtual char * printReg(int num) = 0; + protected: + virtual bool update(int pid) = 0; + public: + virtual int getNumRegs() = 0; + virtual bool diffSinceUpdate(int num) = 0; + virtual std::string getRegName(int num) = 0; + virtual int + getRegNum(std::string name) + { + int numregs = getNumRegs(); + for (unsigned int x = 0; x < numregs; x++) + if(getRegName(x) == name) + return x; + return -1; + } + virtual int64_t getRegVal(int num) = 0; + virtual int64_t getOldRegVal(int num) = 0; + virtual char * printReg(int num) = 0; }; #endif diff --git a/util/statetrace/statetrace.cc b/util/statetrace/statetrace.cc index d50c24f59..132e5baa3 100644 --- a/util/statetrace/statetrace.cc +++ b/util/statetrace/statetrace.cc @@ -47,7 +47,8 @@ using namespace std; -void printUsage(const char * execName) +void +printUsage(const char * execName) { cout << execName << " <options> -- <command> <arguments>" << endl; cout << "options:" << endl; @@ -58,7 +59,8 @@ void printUsage(const char * execName) cout << " -nt don't print an instruction trace" << endl; } -int main(int argc, char * argv[], char * envp[]) +int +main(int argc, char * argv[], char * envp[]) { TraceChild * child = genTraceChild(); string args; @@ -73,87 +75,64 @@ int main(int argc, char * argv[], char * envp[]) printUsage(argv[0]); return 0; } - for(int x = 1; x < argc; x++) - { - if(!strcmp(argv[x], "-h")) - { + for (int x = 1; x < argc; x++) { + if (!strcmp(argv[x], "-h")) { printUsage(argv[0]); return 0; } - if(!strcmp(argv[x], "--host")) - { + if (!strcmp(argv[x], "--host")) { x++; - if(x >= argc) - { + if (x >= argc) { cerr << "Incorrect usage.\n" << endl; printUsage(argv[0]); return 1; } host = argv[x]; - } - else if(!strcmp(argv[x], "-r")) - { + } else if (!strcmp(argv[x], "-r")) { cout << "Legal register names:" << endl; int numRegs = child->getNumRegs(); - for(unsigned int x = 0; x < numRegs; x++) - { + for (unsigned int x = 0; x < numRegs; x++) cout << "\t" << child->getRegName(x) << endl; - } return 0; - } - else if(!strcmp(argv[x], "-i")) - { + } else if (!strcmp(argv[x], "-i")) { printInitial = true; - } - else if(!strcmp(argv[x], "-nt")) - { + } else if (!strcmp(argv[x], "-nt")) { printTrace = false; - } - else if(!strcmp(argv[x], "--")) - { + } else if (!strcmp(argv[x], "--")) { x++; - if(x >= argc) - { + if (x >= argc) { cerr << "Incorrect usage.\n" << endl; printUsage(argv[0]); return 1; } startProgramArgs = x; break; - } - else - { + } else { cerr << "Incorrect usage.\n" << endl; printUsage(argv[0]); return 1; } } - if(!child->startTracing(argv[startProgramArgs], - argv + startProgramArgs)) - { + if (!child->startTracing(argv[startProgramArgs], + argv + startProgramArgs)) { cerr << "Couldn't start target program" << endl; return 1; } child->step(); - if(printInitial) - { + if (printInitial) child->outputStartState(cout); - } - if(printTrace) - { + if (printTrace) { // Connect to m5 bool portSet = false; int port; int sock = socket(AF_INET, SOCK_STREAM, 0); - if(sock < 0) - { + if (sock < 0) { cerr << "Error opening socket! " << strerror(errno) << endl; return 1; } struct hostent *server; server = gethostbyname(host.c_str()); - if(!server) - { + if (!server) { cerr << "Couldn't get host ip! " << strerror(errno) << endl; return 1; } @@ -164,22 +143,19 @@ int main(int argc, char * argv[], char * envp[]) (char *)&serv_addr.sin_addr.s_addr, server->h_length); serv_addr.sin_port = htons(8000); - if(connect(sock, (sockaddr *)&serv_addr, sizeof(serv_addr)) < 0) - { + if (connect(sock, (sockaddr *)&serv_addr, sizeof(serv_addr)) < 0) { cerr << "Couldn't connect to server! " << strerror(errno) << endl; return 1; } - while(child->isTracing()) - { - if(!child->sendState(sock)) - break; - child->step(); + while (child->isTracing()) { + if (!child->sendState(sock)) + break; + child->step(); } } - if(!child->stopTracing()) - { - cerr << "Couldn't stop child" << endl; - return 1; + if (!child->stopTracing()) { + cerr << "Couldn't stop child" << endl; + return 1; } return 0; } diff --git a/util/statetrace/tracechild.cc b/util/statetrace/tracechild.cc index 85f42addd..b5665ff37 100644 --- a/util/statetrace/tracechild.cc +++ b/util/statetrace/tracechild.cc @@ -37,123 +37,111 @@ using namespace std; -bool TraceChild::startTracing(const char * pathToFile, char * const argv[]) +bool +TraceChild::startTracing(const char * pathToFile, char * const argv[]) { - instructions = 0; - pid = fork(); - if(pid == -1) - { - cout << "fork failed" << endl; - return false; + instructions = 0; + pid = fork(); + if (pid == -1) { + cout << "fork failed" << endl; + return false; + } else if (pid == 0) { + //We're the child. Get things ready and then exec the program to trace. + //Let our parent trace us + if (ptrace(PTRACE_TRACEME, 0, 0, 0) == -1) { + cout << "Failure calling TRACEME\n" << strerror(errno) << endl; + return false; } - else if(pid == 0) - { - //We're the child. Get things ready and then exec the - //program to trace. - //Let our parent trace us - if(ptrace(PTRACE_TRACEME, 0, 0, 0) == -1) - { - cout << "Failure calling TRACEME\n"; - cout << strerror(errno) << endl; - return false; - } + //Set up an empty environment for the child... We would want to + //specify this somehow at some point + char * env[] = {NULL}; - //Set up an empty environment for the child... - //We would want to specify this somehow at some point - char * env[] = {NULL}; + //Start the program to trace + execve(pathToFile, argv, env); - //Start the program to trace - execve(pathToFile, argv, env); + //We should never get here, so this is an error! + cout << "Exec failed\n" << strerror(errno) << endl; + return false; + } - //We should never get here, so this is an error! - cout << "Exec failed\n"; - cout << strerror(errno) << endl; - return false; - } - - //From this point forward, we know we're in the parent process. - if(!doWait()) - { - cout << "Didn't wait successfully" << endl; - return false; - } - tracing = true; - return true; + //From this point forward, we know we're in the parent process. + if (!doWait()) { + cout << "Didn't wait successfully" << endl; + return false; + } + tracing = true; + return true; } -bool TraceChild::stopTracing() +bool +TraceChild::stopTracing() { - if(ptrace(PTRACE_KILL, pid, 0, 0) != 0) - return false; - tracing = false; - return true; + if (ptrace(PTRACE_KILL, pid, 0, 0) != 0) + return false; + tracing = false; + return true; } -bool TraceChild::step() +bool +TraceChild::step() { - ptraceSingleStep(); + ptraceSingleStep(); } -bool TraceChild::ptraceSingleStep() +bool +TraceChild::ptraceSingleStep() { - if(!tracing) - { - cout << "Not tracing!" << endl; - return false; - } - if(ptrace(PTRACE_SINGLESTEP, pid, 0, 0) != 0) - { - switch(errno) - { - case EBUSY: cout << "EBUSY" << endl; break; - case EFAULT: cout << "EFAULT" << endl; break; - case EIO: cout << "EIO" << endl; break; - case EPERM: cout << "EPERM" << endl; break; - case ESRCH: cout << "ESRCH" << endl; break; - default: cout << "Unknown error" << endl; break; - } - cout << "Not able to single step!" << endl; - tracing == false; - return false; + if (!tracing) { + cout << "Not tracing!" << endl; + return false; + } + if (ptrace(PTRACE_SINGLESTEP, pid, 0, 0) != 0) { + switch (errno) { + case EBUSY: cout << "EBUSY" << endl; break; + case EFAULT: cout << "EFAULT" << endl; break; + case EIO: cout << "EIO" << endl; break; + case EPERM: cout << "EPERM" << endl; break; + case ESRCH: cout << "ESRCH" << endl; break; + default: cout << "Unknown error" << endl; break; } - doWait(); - update(pid); + cout << "Not able to single step!" << endl; + tracing == false; + return false; + } + doWait(); + update(pid); } -bool TraceChild::doWait() +bool +TraceChild::doWait() { - int wait_val; - wait(&wait_val); - if(WIFEXITED(wait_val)) - { - cerr << "Program exited! Exit status is " - << WEXITSTATUS(wait_val) << endl; - cerr << "Executed " << instructions - << " instructions." << endl; - tracing = false; - return false; - } - if(WIFSIGNALED(wait_val)) - { - if(WTERMSIG(wait_val)) - cerr << "Program terminated by signal " - << WTERMSIG(wait_val) << endl; - if(WCOREDUMP(wait_val)) - cerr << "Program core dumped!" << endl; - tracing = false; - cerr << "Executed " << instructions - << " instructions." << endl; - return false; - } - if(WIFSTOPPED(wait_val) && WSTOPSIG(wait_val) != SIGTRAP) - { - cerr << "Program stopped by signal " - << WSTOPSIG(wait_val) << endl; - tracing = false; - cerr << "Executed " << instructions - << " instructions." << endl; - return false; - } - return true; + int wait_val; + wait(&wait_val); + if (WIFEXITED(wait_val)) { + cerr << "Program exited! Exit status is " + << WEXITSTATUS(wait_val) << endl; + cerr << "Executed " << instructions + << " instructions." << endl; + tracing = false; + return false; + } + if (WIFSIGNALED(wait_val)) { + if (WTERMSIG(wait_val)) + cerr << "Program terminated by signal " + << WTERMSIG(wait_val) << endl; + if (WCOREDUMP(wait_val)) + cerr << "Program core dumped!" << endl; + tracing = false; + cerr << "Executed " << instructions + << " instructions." << endl; + return false; + } + if (WIFSTOPPED(wait_val) && WSTOPSIG(wait_val) != SIGTRAP) { + cerr << "Program stopped by signal " << WSTOPSIG(wait_val) << endl; + tracing = false; + cerr << "Executed " << instructions << " instructions." << endl; + return false; + } + return true; } diff --git a/util/statetrace/tracechild.hh b/util/statetrace/tracechild.hh index 24712f816..247714111 100644 --- a/util/statetrace/tracechild.hh +++ b/util/statetrace/tracechild.hh @@ -35,32 +35,33 @@ class TraceChild : public RegState { -protected: - int pid; - uint64_t instructions; - bool tracing; -public: - TraceChild() : tracing(false), instructions(0) - {;} - virtual bool sendState(int socket) = 0; - virtual bool startTracing(const char * pathToFile, - char * const argv[]); - virtual bool stopTracing(); - virtual bool step(); - virtual uint64_t getPC() = 0; - virtual uint64_t getSP() = 0; - virtual std::ostream & outputStartState(std::ostream & os) = 0; - int getPid() - { - return pid; - } - bool isTracing() - { - return tracing; - } -protected: - bool ptraceSingleStep(); - bool doWait(); + protected: + int pid; + uint64_t instructions; + bool tracing; + public: + TraceChild() : tracing(false), instructions(0) + {;} + virtual bool sendState(int socket) = 0; + virtual bool startTracing(const char * pathToFile, char * const argv[]); + virtual bool stopTracing(); + virtual bool step(); + virtual uint64_t getPC() = 0; + virtual uint64_t getSP() = 0; + virtual std::ostream & outputStartState(std::ostream & os) = 0; + int + getPid() + { + return pid; + } + bool + isTracing() + { + return tracing; + } + protected: + bool ptraceSingleStep(); + bool doWait(); }; TraceChild * genTraceChild(); diff --git a/util/statetrace/tracechild_arch.cc b/util/statetrace/tracechild_arch.cc index 345de46e8..052784df2 100644 --- a/util/statetrace/tracechild_arch.cc +++ b/util/statetrace/tracechild_arch.cc @@ -29,29 +29,28 @@ */ #if defined __alpha__ - #error "Alpha architecture not implemented" + #error "Alpha architecture not implemented" #elif defined __amd64__ -// #error "AMD64 architecture not implemented" - #include "arch/tracechild_amd64.cc" + #include "arch/tracechild_amd64.cc" #elif defined __arm__ - #include "arch/tracechild_arm.cc" + #include "arch/tracechild_arm.cc" #elif defined __hppa__ - #error "Hppa architecture not implemented" + #error "Hppa architecture not implemented" #elif defined __i386__ || defined __i486__ || \ defined __i586__ || defined __i686 - #include "arch/tracechild_i386.cc" + #include "arch/tracechild_i386.cc" #elif defined __ia64__ - #error "IA64 architecture not implemented" + #error "IA64 architecture not implemented" #elif defined __mips__ - #error "Mips architecture not implemented" + #error "Mips architecture not implemented" #elif defined __powerpc__ - #error "PowerPC architecture not implemented" + #error "PowerPC architecture not implemented" #elif defined __sparc__ - #include "arch/tracechild_sparc.cc" + #include "arch/tracechild_sparc.cc" #elif defined __sh__ - #include "SuperH architecture not implemented" + #include "SuperH architecture not implemented" #elif defined __s390__ - #include "System/390 architecture not implemented" + #include "System/390 architecture not implemented" #else - #error "Couldn't determine architecture" + #error "Couldn't determine architecture" #endif |