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From 11d85a217f6b3b15710bbc786adebd943774be09 Mon Sep 17 00:00:00 2001
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From: Laszlo Ersek <lersek@redhat.com>
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Date: Fri, 20 Feb 2015 09:53:20 +0100
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Subject: [PATCH 14/16] Python-lang gdb script to extract x86_64 guest vmcore
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 from qemu coredump
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Message-id: <1424426001-3543-2-git-send-email-lersek@redhat.com>
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Patchwork-id: 63908
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O-Subject: [RHEL-7.2 qemu-kvm PATCH v2 1/2] Python-lang gdb script to extract x86_64 guest vmcore from qemu coredump
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Bugzilla: 828493
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RH-Acked-by: Vitaly Kuznetsov <vkuznets@redhat.com>
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RH-Acked-by: Jeff Nelson <jenelson@redhat.com>
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RH-Acked-by: Miroslav Rezanina <mrezanin@redhat.com>
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When qemu dies unexpectedly, for example in response to an explicit
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abort() call, or (more importantly) when an external signal is delivered
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to it that results in a coredump, sometimes it is useful to extract the
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guest vmcore from the qemu process' memory image. The guest vmcore might
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help understand an emulation problem in qemu, or help debug the guest.
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This script reimplements (and cuts many features of) the
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qmp_dump_guest_memory() command in gdb/Python,
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  https://sourceware.org/gdb/current/onlinedocs/gdb/Python-API.html
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working off the saved memory image of the qemu process. The docstring in
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the patch (serving as gdb help text) describes the limitations relative to
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the QMP command.
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Dependencies of qmp_dump_guest_memory() have been reimplemented as needed.
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I sought to follow the general structure, sticking to original function
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names where possible. However, keeping it simple prevailed in some places.
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The patch has been tested with a 4 VCPU, 768 MB, RHEL-6.4
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(2.6.32-358.el6.x86_64) guest:
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- The script printed
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> guest RAM blocks:
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> target_start     target_end       host_addr        message count
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> ---------------- ---------------- ---------------- ------- -----
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> 0000000000000000 00000000000a0000 00007f95d0000000 added       1
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> 00000000000a0000 00000000000b0000 00007f960ac00000 added       2
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> 00000000000c0000 00000000000ca000 00007f95d00c0000 added       3
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> 00000000000ca000 00000000000cd000 00007f95d00ca000 joined      3
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> 00000000000cd000 00000000000d0000 00007f95d00cd000 joined      3
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> 00000000000d0000 00000000000f0000 00007f95d00d0000 joined      3
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> 00000000000f0000 0000000000100000 00007f95d00f0000 joined      3
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> 0000000000100000 0000000030000000 00007f95d0100000 joined      3
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> 00000000fc000000 00000000fc800000 00007f960ac00000 added       4
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> 00000000fffe0000 0000000100000000 00007f9618800000 added       5
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> dumping range at 00007f95d0000000 for length 00000000000a0000
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> dumping range at 00007f960ac00000 for length 0000000000010000
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> dumping range at 00007f95d00c0000 for length 000000002ff40000
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> dumping range at 00007f960ac00000 for length 0000000000800000
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> dumping range at 00007f9618800000 for length 0000000000020000
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- The vmcore was checked with "readelf", comparing the results against a
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  vmcore written by qmp_dump_guest_memory():
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> --- theirs      2013-09-12 17:38:59.797289404 +0200
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> +++ mine        2013-09-12 17:39:03.820289404 +0200
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> @@ -27,16 +27,16 @@
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>    Type           Offset             VirtAddr           PhysAddr
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>                   FileSiz            MemSiz              Flags  Align
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>    NOTE           0x0000000000000190 0x0000000000000000 0x0000000000000000
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> -                 0x0000000000000ca0 0x0000000000000ca0         0
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> -  LOAD           0x0000000000000e30 0x0000000000000000 0x0000000000000000
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> +                 0x000000000000001c 0x000000000000001c         0
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> +  LOAD           0x00000000000001ac 0x0000000000000000 0x0000000000000000
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>                   0x00000000000a0000 0x00000000000a0000         0
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> -  LOAD           0x00000000000a0e30 0x0000000000000000 0x00000000000a0000
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> +  LOAD           0x00000000000a01ac 0x0000000000000000 0x00000000000a0000
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>                   0x0000000000010000 0x0000000000010000         0
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> -  LOAD           0x00000000000b0e30 0x0000000000000000 0x00000000000c0000
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> +  LOAD           0x00000000000b01ac 0x0000000000000000 0x00000000000c0000
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>                   0x000000002ff40000 0x000000002ff40000         0
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> -  LOAD           0x000000002fff0e30 0x0000000000000000 0x00000000fc000000
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> +  LOAD           0x000000002fff01ac 0x0000000000000000 0x00000000fc000000
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>                   0x0000000000800000 0x0000000000800000         0
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> -  LOAD           0x00000000307f0e30 0x0000000000000000 0x00000000fffe0000
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> +  LOAD           0x00000000307f01ac 0x0000000000000000 0x00000000fffe0000
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>                   0x0000000000020000 0x0000000000020000         0
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>
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>  There is no dynamic section in this file.
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> @@ -47,13 +47,6 @@
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>
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>  No version information found in this file.
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>
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> -Notes at offset 0x00000190 with length 0x00000ca0:
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> +Notes at offset 0x00000190 with length 0x0000001c:
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>    Owner                Data size       Description
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> -  CORE         0x00000150      NT_PRSTATUS (prstatus structure)
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> -  CORE         0x00000150      NT_PRSTATUS (prstatus structure)
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> -  CORE         0x00000150      NT_PRSTATUS (prstatus structure)
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> -  CORE         0x00000150      NT_PRSTATUS (prstatus structure)
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> -  QEMU         0x000001b0      Unknown note type: (0x00000000)
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> -  QEMU         0x000001b0      Unknown note type: (0x00000000)
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> -  QEMU         0x000001b0      Unknown note type: (0x00000000)
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> -  QEMU         0x000001b0      Unknown note type: (0x00000000)
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> +  NONE         0x00000005      Unknown note type: (0x00000000)
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- The vmcore was checked with "crash" too, again comparing the results
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  against a vmcore written by qmp_dump_guest_memory():
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> --- guest.vmcore.log2   2013-09-12 17:52:27.074289201 +0200
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> +++ example.dump.log2   2013-09-12 17:52:15.904289203 +0200
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> @@ -22,11 +22,11 @@
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>  This GDB was configured as "x86_64-unknown-linux-gnu"...
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>
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>       KERNEL: /usr/lib/debug/lib/modules/2.6.32-358.el6.x86_64/vmlinux
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> -    DUMPFILE: /home/lacos/tmp/guest.vmcore
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> +    DUMPFILE: /home/lacos/tmp/example.dump
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>          CPUS: 4
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> -        DATE: Thu Sep 12 17:16:11 2013
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> -      UPTIME: 00:01:09
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> -LOAD AVERAGE: 0.07, 0.03, 0.00
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> +        DATE: Thu Sep 12 17:17:41 2013
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> +      UPTIME: 00:00:38
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> +LOAD AVERAGE: 0.18, 0.05, 0.01
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>         TASKS: 130
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>      NODENAME: localhost.localdomain
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>       RELEASE: 2.6.32-358.el6.x86_64
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> @@ -38,12 +38,12 @@
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>       COMMAND: "swapper"
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>          TASK: ffffffff81a8d020  (1 of 4)  [THREAD_INFO: ffffffff81a00000]
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>           CPU: 0
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> -       STATE: TASK_RUNNING (PANIC)
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> +       STATE: TASK_RUNNING (ACTIVE)
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> +     WARNING: panic task not found
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>
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>  crash> bt
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>  PID: 0      TASK: ffffffff81a8d020  CPU: 0   COMMAND: "swapper"
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> - #0 [ffffffff81a01ed0] default_idle at ffffffff8101495d
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> - #1 [ffffffff81a01ef0] cpu_idle at ffffffff81009fc6
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> + #0 [ffffffff81a01ef0] cpu_idle at ffffffff81009fc6
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>  crash> task ffffffff81a8d020
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>  PID: 0      TASK: ffffffff81a8d020  CPU: 0   COMMAND: "swapper"
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>  struct task_struct {
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> @@ -75,7 +75,7 @@
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>        prev = 0xffffffff81a8d080
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>      },
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>      on_rq = 0,
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> -    exec_start = 8618466836,
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> +    exec_start = 7469214014,
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>      sum_exec_runtime = 0,
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>      vruntime = 0,
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>      prev_sum_exec_runtime = 0,
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> @@ -149,7 +149,7 @@
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>    },
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>    tasks = {
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>      next = 0xffff88002d621948,
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> -    prev = 0xffff880029618f28
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> +    prev = 0xffff880023b74488
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>    },
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>    pushable_tasks = {
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>      prio = 140,
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> @@ -165,7 +165,7 @@
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>      }
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>    },
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>    mm = 0x0,
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> -  active_mm = 0xffff88002929b780,
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> +  active_mm = 0xffff8800297eb980,
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>    exit_state = 0,
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>    exit_code = 0,
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>    exit_signal = 0,
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> @@ -177,7 +177,7 @@
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>    sched_reset_on_fork = 0,
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>    pid = 0,
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>    tgid = 0,
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> -  stack_canary = 2483693585637059287,
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> +  stack_canary = 7266362296181431986,
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>    real_parent = 0xffffffff81a8d020,
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>    parent = 0xffffffff81a8d020,
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>    children = {
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> @@ -224,14 +224,14 @@
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>    set_child_tid = 0x0,
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>    clear_child_tid = 0x0,
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>    utime = 0,
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> -  stime = 3,
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> +  stime = 2,
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>    utimescaled = 0,
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> -  stimescaled = 3,
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> +  stimescaled = 2,
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>    gtime = 0,
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>    prev_utime = 0,
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>    prev_stime = 0,
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>    nvcsw = 0,
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> -  nivcsw = 1000,
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> +  nivcsw = 1764,
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>    start_time = {
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>      tv_sec = 0,
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>      tv_nsec = 0
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- <name_dropping>I asked for Dave Anderson's help with verifying the
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  extracted vmcore, and his comments make me think I should post
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  this.</name_dropping>
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Signed-off-by: Laszlo Ersek <lersek@redhat.com>
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Signed-off-by: Michael S. Tsirkin <mst@redhat.com>
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(cherry picked from commit 3e16d14fd93ca6059134ba6b4f65c1c3e4cd3a18)
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Signed-off-by: Miroslav Rezanina <mrezanin@redhat.com>
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---
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 scripts/dump-guest-memory.py | 339 +++++++++++++++++++++++++++++++++++++++++++
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 1 file changed, 339 insertions(+)
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 create mode 100644 scripts/dump-guest-memory.py
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diff --git a/scripts/dump-guest-memory.py b/scripts/dump-guest-memory.py
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new file mode 100644
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index 0000000..1ed8b67
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--- /dev/null
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+++ b/scripts/dump-guest-memory.py
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@@ -0,0 +1,339 @@
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+# This python script adds a new gdb command, "dump-guest-memory". It
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+# should be loaded with "source dump-guest-memory.py" at the (gdb)
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+# prompt.
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+#
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+# Copyright (C) 2013, Red Hat, Inc.
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+#
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+# Authors:
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+#   Laszlo Ersek <lersek@redhat.com>
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+#
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+# This work is licensed under the terms of the GNU GPL, version 2 or later. See
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+# the COPYING file in the top-level directory.
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+#
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+# The leading docstring doesn't have idiomatic Python formatting. It is
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+# printed by gdb's "help" command (the first line is printed in the
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+# "help data" summary), and it should match how other help texts look in
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+# gdb.
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+
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+import struct
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+
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+class DumpGuestMemory(gdb.Command):
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+    """Extract guest vmcore from qemu process coredump.
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+
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+The sole argument is FILE, identifying the target file to write the
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+guest vmcore to.
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+
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+This GDB command reimplements the dump-guest-memory QMP command in
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+python, using the representation of guest memory as captured in the qemu
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+coredump. The qemu process that has been dumped must have had the
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+command line option "-machine dump-guest-core=on".
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+
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+For simplicity, the "paging", "begin" and "end" parameters of the QMP
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+command are not supported -- no attempt is made to get the guest's
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+internal paging structures (ie. paging=false is hard-wired), and guest
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+memory is always fully dumped.
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+
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+Only x86_64 guests are supported.
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+
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+The CORE/NT_PRSTATUS and QEMU notes (that is, the VCPUs' statuses) are
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+not written to the vmcore. Preparing these would require context that is
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+only present in the KVM host kernel module when the guest is alive. A
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+fake ELF note is written instead, only to keep the ELF parser of "crash"
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+happy.
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+
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+Dependent on how busted the qemu process was at the time of the
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+coredump, this command might produce unpredictable results. If qemu
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+deliberately called abort(), or it was dumped in response to a signal at
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+a halfway fortunate point, then its coredump should be in reasonable
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+shape and this command should mostly work."""
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+
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+    TARGET_PAGE_SIZE = 0x1000
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+    TARGET_PAGE_MASK = 0xFFFFFFFFFFFFF000
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+
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+    # Various ELF constants
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+    EM_X86_64   = 62        # AMD x86-64 target machine
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+    ELFDATA2LSB = 1         # little endian
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+    ELFCLASS64  = 2
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+    ELFMAG      = "\x7FELF"
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+    EV_CURRENT  = 1
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+    ET_CORE     = 4
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+    PT_LOAD     = 1
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+    PT_NOTE     = 4
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+
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+    # Special value for e_phnum. This indicates that the real number of
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+    # program headers is too large to fit into e_phnum. Instead the real
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+    # value is in the field sh_info of section 0.
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+    PN_XNUM = 0xFFFF
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+
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+    # Format strings for packing and header size calculation.
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+    ELF64_EHDR = ("4s" # e_ident/magic
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+                  "B"  # e_ident/class
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+                  "B"  # e_ident/data
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+                  "B"  # e_ident/version
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+                  "B"  # e_ident/osabi
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+                  "8s" # e_ident/pad
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+                  "H"  # e_type
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+                  "H"  # e_machine
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+                  "I"  # e_version
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+                  "Q"  # e_entry
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+                  "Q"  # e_phoff
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+                  "Q"  # e_shoff
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+                  "I"  # e_flags
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+                  "H"  # e_ehsize
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+                  "H"  # e_phentsize
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+                  "H"  # e_phnum
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+                  "H"  # e_shentsize
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+                  "H"  # e_shnum
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+                  "H"  # e_shstrndx
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+                 )
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+    ELF64_PHDR = ("I"  # p_type
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+                  "I"  # p_flags
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+                  "Q"  # p_offset
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+                  "Q"  # p_vaddr
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+                  "Q"  # p_paddr
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+                  "Q"  # p_filesz
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+                  "Q"  # p_memsz
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+                  "Q"  # p_align
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+                 )
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+
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+    def __init__(self):
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+        super(DumpGuestMemory, self).__init__("dump-guest-memory",
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+                                              gdb.COMMAND_DATA,
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+                                              gdb.COMPLETE_FILENAME)
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+        self.uintptr_t     = gdb.lookup_type("uintptr_t")
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+        self.elf64_ehdr_le = struct.Struct("<%s" % self.ELF64_EHDR)
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+        self.elf64_phdr_le = struct.Struct("<%s" % self.ELF64_PHDR)
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+
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+    def int128_get64(self, val):
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+        assert (val["hi"] == 0)
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+        return val["lo"]
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+
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+    def qtailq_foreach(self, head, field_str):
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+        var_p = head["tqh_first"]
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+        while (var_p != 0):
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+            var = var_p.dereference()
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+            yield var
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+            var_p = var[field_str]["tqe_next"]
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+
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+    def qemu_get_ram_block(self, ram_addr):
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+        ram_blocks = gdb.parse_and_eval("ram_list.blocks")
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+        for block in self.qtailq_foreach(ram_blocks, "next"):
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+            if (ram_addr - block["offset"] < block["length"]):
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+                return block
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+        raise gdb.GdbError("Bad ram offset %x" % ram_addr)
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+
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+    def qemu_get_ram_ptr(self, ram_addr):
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+        block = self.qemu_get_ram_block(ram_addr)
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+        return block["host"] + (ram_addr - block["offset"])
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+
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+    def memory_region_get_ram_ptr(self, mr):
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+        if (mr["alias"] != 0):
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+            return (self.memory_region_get_ram_ptr(mr["alias"].dereference()) +
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+                    mr["alias_offset"])
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+        return self.qemu_get_ram_ptr(mr["ram_addr"] & self.TARGET_PAGE_MASK)
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+
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+    def guest_phys_blocks_init(self):
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+        self.guest_phys_blocks = []
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+
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+    def guest_phys_blocks_append(self):
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+        print "guest RAM blocks:"
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+        print ("target_start     target_end       host_addr        message "
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+               "count")
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+        print ("---------------- ---------------- ---------------- ------- "
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+               "-----")
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+
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+        current_map_p = gdb.parse_and_eval("address_space_memory.current_map")
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+        current_map = current_map_p.dereference()
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+        for cur in range(current_map["nr"]):
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+            flat_range   = (current_map["ranges"] + cur).dereference()
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+            mr           = flat_range["mr"].dereference()
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+
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+            # we only care about RAM
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+            if (not mr["ram"]):
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+                continue
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+
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+            section_size = self.int128_get64(flat_range["addr"]["size"])
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+            target_start = self.int128_get64(flat_range["addr"]["start"])
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+            target_end   = target_start + section_size
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+            host_addr    = (self.memory_region_get_ram_ptr(mr) +
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+                            flat_range["offset_in_region"])
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+            predecessor = None
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+
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+            # find continuity in guest physical address space
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+            if (len(self.guest_phys_blocks) > 0):
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+                predecessor = self.guest_phys_blocks[-1]
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+                predecessor_size = (predecessor["target_end"] -
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+                                    predecessor["target_start"])
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+
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+                # the memory API guarantees monotonically increasing
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+                # traversal
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+                assert (predecessor["target_end"] <= target_start)
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+
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+                # we want continuity in both guest-physical and
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+                # host-virtual memory
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+                if (predecessor["target_end"] < target_start or
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+                    predecessor["host_addr"] + predecessor_size != host_addr):
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+                    predecessor = None
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+
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+            if (predecessor is None):
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+                # isolated mapping, add it to the list
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+                self.guest_phys_blocks.append({"target_start": target_start,
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+                                               "target_end"  : target_end,
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+                                               "host_addr"   : host_addr})
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+                message = "added"
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+            else:
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+                # expand predecessor until @target_end; predecessor's
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+                # start doesn't change
05bba0
+                predecessor["target_end"] = target_end
05bba0
+                message = "joined"
05bba0
+
05bba0
+            print ("%016x %016x %016x %-7s %5u" %
05bba0
+                   (target_start, target_end, host_addr.cast(self.uintptr_t),
05bba0
+                    message, len(self.guest_phys_blocks)))
05bba0
+
05bba0
+    def cpu_get_dump_info(self):
05bba0
+        # We can't synchronize the registers with KVM post-mortem, and
05bba0
+        # the bits in (first_x86_cpu->env.hflags) seem to be stale; they
05bba0
+        # may not reflect long mode for example. Hence just assume the
05bba0
+        # most common values. This also means that instruction pointer
05bba0
+        # etc. will be bogus in the dump, but at least the RAM contents
05bba0
+        # should be valid.
05bba0
+        self.dump_info = {"d_machine": self.EM_X86_64,
05bba0
+                          "d_endian" : self.ELFDATA2LSB,
05bba0
+                          "d_class"  : self.ELFCLASS64}
05bba0
+
05bba0
+    def encode_elf64_ehdr_le(self):
05bba0
+        return self.elf64_ehdr_le.pack(
05bba0
+                                 self.ELFMAG,                 # e_ident/magic
05bba0
+                                 self.dump_info["d_class"],   # e_ident/class
05bba0
+                                 self.dump_info["d_endian"],  # e_ident/data
05bba0
+                                 self.EV_CURRENT,             # e_ident/version
05bba0
+                                 0,                           # e_ident/osabi
05bba0
+                                 "",                          # e_ident/pad
05bba0
+                                 self.ET_CORE,                # e_type
05bba0
+                                 self.dump_info["d_machine"], # e_machine
05bba0
+                                 self.EV_CURRENT,             # e_version
05bba0
+                                 0,                           # e_entry
05bba0
+                                 self.elf64_ehdr_le.size,     # e_phoff
05bba0
+                                 0,                           # e_shoff
05bba0
+                                 0,                           # e_flags
05bba0
+                                 self.elf64_ehdr_le.size,     # e_ehsize
05bba0
+                                 self.elf64_phdr_le.size,     # e_phentsize
05bba0
+                                 self.phdr_num,               # e_phnum
05bba0
+                                 0,                           # e_shentsize
05bba0
+                                 0,                           # e_shnum
05bba0
+                                 0                            # e_shstrndx
05bba0
+                                )
05bba0
+
05bba0
+    def encode_elf64_note_le(self):
05bba0
+        return self.elf64_phdr_le.pack(self.PT_NOTE,         # p_type
05bba0
+                                       0,                    # p_flags
05bba0
+                                       (self.memory_offset -
05bba0
+                                        len(self.note)),     # p_offset
05bba0
+                                       0,                    # p_vaddr
05bba0
+                                       0,                    # p_paddr
05bba0
+                                       len(self.note),       # p_filesz
05bba0
+                                       len(self.note),       # p_memsz
05bba0
+                                       0                     # p_align
05bba0
+                                      )
05bba0
+
05bba0
+    def encode_elf64_load_le(self, offset, start_hwaddr, range_size):
05bba0
+        return self.elf64_phdr_le.pack(self.PT_LOAD, # p_type
05bba0
+                                       0,            # p_flags
05bba0
+                                       offset,       # p_offset
05bba0
+                                       0,            # p_vaddr
05bba0
+                                       start_hwaddr, # p_paddr
05bba0
+                                       range_size,   # p_filesz
05bba0
+                                       range_size,   # p_memsz
05bba0
+                                       0             # p_align
05bba0
+                                      )
05bba0
+
05bba0
+    def note_init(self, name, desc, type):
05bba0
+        # name must include a trailing NUL
05bba0
+        namesz = (len(name) + 1 + 3) / 4 * 4
05bba0
+        descsz = (len(desc)     + 3) / 4 * 4
05bba0
+        fmt = ("<"   # little endian
05bba0
+               "I"   # n_namesz
05bba0
+               "I"   # n_descsz
05bba0
+               "I"   # n_type
05bba0
+               "%us" # name
05bba0
+               "%us" # desc
05bba0
+               % (namesz, descsz))
05bba0
+        self.note = struct.pack(fmt,
05bba0
+                                len(name) + 1, len(desc), type, name, desc)
05bba0
+
05bba0
+    def dump_init(self):
05bba0
+        self.guest_phys_blocks_init()
05bba0
+        self.guest_phys_blocks_append()
05bba0
+        self.cpu_get_dump_info()
05bba0
+        # we have no way to retrieve the VCPU status from KVM
05bba0
+        # post-mortem
05bba0
+        self.note_init("NONE", "EMPTY", 0)
05bba0
+
05bba0
+        # Account for PT_NOTE.
05bba0
+        self.phdr_num = 1
05bba0
+
05bba0
+        # We should never reach PN_XNUM for paging=false dumps: there's
05bba0
+        # just a handful of discontiguous ranges after merging.
05bba0
+        self.phdr_num += len(self.guest_phys_blocks)
05bba0
+        assert (self.phdr_num < self.PN_XNUM)
05bba0
+
05bba0
+        # Calculate the ELF file offset where the memory dump commences:
05bba0
+        #
05bba0
+        #   ELF header
05bba0
+        #   PT_NOTE
05bba0
+        #   PT_LOAD: 1
05bba0
+        #   PT_LOAD: 2
05bba0
+        #   ...
05bba0
+        #   PT_LOAD: len(self.guest_phys_blocks)
05bba0
+        #   ELF note
05bba0
+        #   memory dump
05bba0
+        self.memory_offset = (self.elf64_ehdr_le.size +
05bba0
+                              self.elf64_phdr_le.size * self.phdr_num +
05bba0
+                              len(self.note))
05bba0
+
05bba0
+    def dump_begin(self, vmcore):
05bba0
+        vmcore.write(self.encode_elf64_ehdr_le())
05bba0
+        vmcore.write(self.encode_elf64_note_le())
05bba0
+        running = self.memory_offset
05bba0
+        for block in self.guest_phys_blocks:
05bba0
+            range_size = block["target_end"] - block["target_start"]
05bba0
+            vmcore.write(self.encode_elf64_load_le(running,
05bba0
+                                                   block["target_start"],
05bba0
+                                                   range_size))
05bba0
+            running += range_size
05bba0
+        vmcore.write(self.note)
05bba0
+
05bba0
+    def dump_iterate(self, vmcore):
05bba0
+        qemu_core = gdb.inferiors()[0]
05bba0
+        for block in self.guest_phys_blocks:
05bba0
+            cur  = block["host_addr"]
05bba0
+            left = block["target_end"] - block["target_start"]
05bba0
+            print ("dumping range at %016x for length %016x" %
05bba0
+                   (cur.cast(self.uintptr_t), left))
05bba0
+            while (left > 0):
05bba0
+                chunk_size = min(self.TARGET_PAGE_SIZE, left)
05bba0
+                chunk = qemu_core.read_memory(cur, chunk_size)
05bba0
+                vmcore.write(chunk)
05bba0
+                cur  += chunk_size
05bba0
+                left -= chunk_size
05bba0
+
05bba0
+    def create_vmcore(self, filename):
05bba0
+        vmcore = open(filename, "wb")
05bba0
+        self.dump_begin(vmcore)
05bba0
+        self.dump_iterate(vmcore)
05bba0
+        vmcore.close()
05bba0
+
05bba0
+    def invoke(self, args, from_tty):
05bba0
+        # Unwittingly pressing the Enter key after the command should
05bba0
+        # not dump the same multi-gig coredump to the same file.
05bba0
+        self.dont_repeat()
05bba0
+
05bba0
+        argv = gdb.string_to_argv(args)
05bba0
+        if (len(argv) != 1):
05bba0
+            raise gdb.GdbError("usage: dump-guest-memory FILE")
05bba0
+
05bba0
+        self.dump_init()
05bba0
+        self.create_vmcore(argv[0])
05bba0
+
05bba0
+DumpGuestMemory()
05bba0
-- 
05bba0
1.8.3.1
05bba0