This is relatively straighforward, you need to use structure called RTL_CRITICAL_SECTION_DEBUG. I added my annotations in the printout:
0:011> dt ntdll!_RTL_CRITICAL_SECTION_DEBUG
+0x000 Type : Uint2B
+0x002 CreatorBackTraceIndex : Uint2B
+0x004 CriticalSection : Ptr32 _RTL_CRITICAL_SECTION // This is pointer to actual critical section
+0x008 ProcessLocksList : _LIST_ENTRY // All critical sections are chained in this doubly linked list
+0x010 EntryCount : Uint4B
+0x014 ContentionCount : Uint4B
+0x018 Flags : Uint4B
+0x01c CreatorBackTraceIndexHigh : Uint2B
+0x01e SpareUSHORT : Uint2B
As you can see, all critical sections belong to the same global list, with
ProcessLocksList of one critical section pointing to to
ProcessLocksList of next critical section (as well as to the previous). Once you know addresses of all
ProcessLocksLists, you can extract pointer to RTL_CRITICAL_SECTION structure by substracting sizeof(void*) from it.
Finally, the address of very first
ProcessLocksList entry is given by ntdll!RtlCriticalSectionList.
The following command is a demonstration of what I said above. It will print out all critical sections in the process:
!list "-t ntdll!_LIST_ENTRY.Flink -e -x \"ln poi(@$extret-0x4); dt ntdll!_RTL_CRITICAL_SECTION poi(@$extret-0x4)\" ntdll!RtlCriticalSectionList"
Make adjustments for x64 if you need one.
ADDED AS REQUESTED:
Here is a version for x64:
!list "-t ntdll!_LIST_ENTRY.Flink -e -x \"ln poi(@$extret-0x8); dt ntdll!_RTL_CRITICAL_SECTION poi(@$extret-0x8)\" ntdll!RtlCriticalSectionList"