- { active_mm : [ | `mm_struct ] Virt_mem_mmap.typed_addr; comm : string;
- mm : [ | `mm_struct ] Virt_mem_mmap.typed_addr; normal_prio : int64;
- prio : int64; state : int64; static_prio : int64;
- tasks'next : [ | `task_struct ] Virt_mem_mmap.typed_addr;
- tasks'prev : [ | `task_struct ] Virt_mem_mmap.typed_addr
- };;
-let parser_1 bits = bitmatch bits with
- | { state : zero+32 : offset(0), littleendian;
- prio : zero+32 : offset(192), littleendian;
- static_prio : zero+32 : offset(224), littleendian;
- normal_prio : zero+32 : offset(256), littleendian;
- tasks'next : zero+32 : offset(992), littleendian;
- tasks'prev : zero+32 : offset(1024), littleendian;
- mm : zero+32 : offset(1056), littleendian;
- active_mm : zero+32 : offset(1088), littleendian;
- comm : 128 : offset(3232), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 124L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 128L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_1", "failed to match kernel structure"));;
-let parser_2 bits = bitmatch bits with
- | { state : zero+32 : offset(0), bigendian;
- prio : zero+32 : offset(160), bigendian;
- static_prio : zero+32 : offset(192), bigendian;
- normal_prio : zero+32 : offset(224), bigendian;
- tasks'next : zero+32 : offset(2176), bigendian;
- tasks'prev : zero+32 : offset(2208), bigendian;
- mm : zero+32 : offset(2240), bigendian;
- active_mm : zero+32 : offset(2272), bigendian;
- comm : 128 : offset(4416), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 272L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 276L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_2", "failed to match kernel structure"));;
-let parser_3 bits = bitmatch bits with
- | { state : zero+32 : offset(0), bigendian;
- prio : zero+32 : offset(192), bigendian;
- static_prio : zero+32 : offset(224), bigendian;
- normal_prio : zero+32 : offset(256), bigendian;
- tasks'next : zero+32 : offset(2304), bigendian;
- tasks'prev : zero+32 : offset(2336), bigendian;
- mm : zero+32 : offset(2496), bigendian;
- active_mm : zero+32 : offset(2528), bigendian;
- comm : 128 : offset(4736), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 288L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 292L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_3", "failed to match kernel structure"));;
-let parser_4 bits = bitmatch bits with
- | { state : zero+64 : offset(0), littleendian;
- prio : zero+32 : offset(320), littleendian;
- static_prio : zero+32 : offset(352), littleendian;
- normal_prio : zero+32 : offset(384), littleendian;
- tasks'next : zero+64 : offset(1536), littleendian;
- tasks'prev : zero+64 : offset(1600), littleendian;
- mm : zero+64 : offset(1664), littleendian;
- active_mm : zero+64 : offset(1728), littleendian;
- comm : 128 : offset(5376), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 192L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 200L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_4", "failed to match kernel structure"));;
-let parser_5 bits = bitmatch bits with
- | { state : zero+64 : offset(0), littleendian;
- prio : zero+32 : offset(256), littleendian;
- static_prio : zero+32 : offset(288), littleendian;
- normal_prio : zero+32 : offset(320), littleendian;
- tasks'next : zero+64 : offset(2816), littleendian;
- tasks'prev : zero+64 : offset(2880), littleendian;
- mm : zero+64 : offset(3200), littleendian;
- active_mm : zero+64 : offset(3264), littleendian;
- comm : 128 : offset(6912), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 352L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 360L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_5", "failed to match kernel structure"));;
-let parser_6 bits = bitmatch bits with
- | { state : zero+64 : offset(0), bigendian;
- prio : zero+32 : offset(320), bigendian;
- static_prio : zero+32 : offset(352), bigendian;
- normal_prio : zero+32 : offset(384), bigendian;
- tasks'next : zero+64 : offset(1600), bigendian;
- tasks'prev : zero+64 : offset(1664), bigendian;
- mm : zero+64 : offset(1728), bigendian;
- active_mm : zero+64 : offset(1792), bigendian;
- comm : 128 : offset(5440), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 200L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 208L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_6", "failed to match kernel structure"));;
-let parser_7 bits = bitmatch bits with
- | { state : zero+64 : offset(0), littleendian;
- prio : zero+32 : offset(320), littleendian;
- static_prio : zero+32 : offset(352), littleendian;
- normal_prio : zero+32 : offset(384), littleendian;
- tasks'next : zero+64 : offset(1536), littleendian;
- tasks'prev : zero+64 : offset(1600), littleendian;
- mm : zero+64 : offset(1664), littleendian;
- active_mm : zero+64 : offset(1728), littleendian;
- comm : 128 : offset(5440), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 192L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 200L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_7", "failed to match kernel structure"));;
-let parser_8 bits = bitmatch bits with
- | { state : zero+64 : offset(0), littleendian;
- prio : zero+32 : offset(224), littleendian;
- static_prio : zero+32 : offset(256), littleendian;
- normal_prio : zero+32 : offset(288), littleendian;
- tasks'next : zero+64 : offset(2816), littleendian;
- tasks'prev : zero+64 : offset(2880), littleendian;
- mm : zero+64 : offset(2944), littleendian;
- active_mm : zero+64 : offset(3008), littleendian;
- comm : 128 : offset(6592), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 352L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 360L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_8", "failed to match kernel structure"));;
-let parser_9 bits = bitmatch bits with
- | { state : zero+64 : offset(0), bigendian;
- prio : zero+32 : offset(224), bigendian;
- static_prio : zero+32 : offset(256), bigendian;
- normal_prio : zero+32 : offset(288), bigendian;
- tasks'next : zero+64 : offset(2880), bigendian;
- tasks'prev : zero+64 : offset(2944), bigendian;
- mm : zero+64 : offset(3008), bigendian;
- active_mm : zero+64 : offset(3072), bigendian;
- comm : 128 : offset(6592), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 360L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 368L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_9", "failed to match kernel structure"));;
-let parser_10 bits = bitmatch bits with
- | { state : zero+32 : offset(0), littleendian;
- prio : zero+32 : offset(192), littleendian;
- static_prio : zero+32 : offset(224), littleendian;
- normal_prio : zero+32 : offset(256), littleendian;
- tasks'next : zero+32 : offset(2208), littleendian;
- tasks'prev : zero+32 : offset(2240), littleendian;
- mm : zero+32 : offset(2400), littleendian;
- active_mm : zero+32 : offset(2432), littleendian;
- comm : 128 : offset(4608), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 276L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 280L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_10", "failed to match kernel structure"));;
-let parser_11 bits = bitmatch bits with
- | { state : zero+64 : offset(0), littleendian;
- prio : zero+32 : offset(224), littleendian;
- static_prio : zero+32 : offset(256), littleendian;
- normal_prio : zero+32 : offset(288), littleendian;
- tasks'next : zero+64 : offset(3648), littleendian;
- tasks'prev : zero+64 : offset(3712), littleendian;
- mm : zero+64 : offset(3776), littleendian;
- active_mm : zero+64 : offset(3840), littleendian;
- comm : 128 : offset(7816), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 456L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 464L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_11", "failed to match kernel structure"));;
-let parser_12 bits = bitmatch bits with
- | { state : zero+32 : offset(0), bigendian;
- prio : zero+32 : offset(192), bigendian;
- static_prio : zero+32 : offset(224), bigendian;
- normal_prio : zero+32 : offset(256), bigendian;
- tasks'next : zero+32 : offset(1024), bigendian;
- tasks'prev : zero+32 : offset(1056), bigendian;
- mm : zero+32 : offset(1088), bigendian;
- active_mm : zero+32 : offset(1120), bigendian;
- comm : 128 : offset(3264), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 128L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 132L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_12", "failed to match kernel structure"));;
-let parser_13 bits = bitmatch bits with
- | { state : zero+64 : offset(0), littleendian;
- prio : zero+32 : offset(224), littleendian;
- static_prio : zero+32 : offset(256), littleendian;
- normal_prio : zero+32 : offset(288), littleendian;
- tasks'next : zero+64 : offset(3840), littleendian;
- tasks'prev : zero+64 : offset(3904), littleendian;
- mm : zero+64 : offset(3968), littleendian;
- active_mm : zero+64 : offset(4032), littleendian;
- comm : 128 : offset(8392), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 480L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 488L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_13", "failed to match kernel structure"));;
-let parser_14 bits = bitmatch bits with
- | { state : zero+32 : offset(0), littleendian;
- prio : zero+32 : offset(160), littleendian;
- static_prio : zero+32 : offset(192), littleendian;
- normal_prio : zero+32 : offset(224), littleendian;
- tasks'next : zero+32 : offset(3008), littleendian;
- tasks'prev : zero+32 : offset(3040), littleendian;
- mm : zero+32 : offset(3072), littleendian;
- active_mm : zero+32 : offset(3104), littleendian;
- comm : 128 : offset(5416), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 376L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 380L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_14", "failed to match kernel structure"));;
-let parser_15 bits = bitmatch bits with
- | { state : zero+32 : offset(0), littleendian;
- prio : zero+32 : offset(160), littleendian;
- static_prio : zero+32 : offset(192), littleendian;
- normal_prio : zero+32 : offset(224), littleendian;
- tasks'next : zero+32 : offset(2144), littleendian;
- tasks'prev : zero+32 : offset(2176), littleendian;
- mm : zero+32 : offset(2208), littleendian;
- active_mm : zero+32 : offset(2240), littleendian;
- comm : 128 : offset(4384), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 268L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 272L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_15", "failed to match kernel structure"));;
-let parser_16 bits = bitmatch bits with
- | { state : zero+64 : offset(0), bigendian;
- prio : zero+32 : offset(256), bigendian;
- static_prio : zero+32 : offset(288), bigendian;
- normal_prio : zero+32 : offset(320), bigendian;
- tasks'next : zero+64 : offset(2880), bigendian;
- tasks'prev : zero+64 : offset(2944), bigendian;
- mm : zero+64 : offset(3264), bigendian;
- active_mm : zero+64 : offset(3328), bigendian;
- comm : 128 : offset(6912), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 360L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 368L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_16", "failed to match kernel structure"));;
-let parser_17 bits = bitmatch bits with
- | { state : zero+32 : offset(0), bigendian;
- prio : zero+32 : offset(160), bigendian;
- static_prio : zero+32 : offset(192), bigendian;
- normal_prio : zero+32 : offset(224), bigendian;
- tasks'next : zero+32 : offset(3136), bigendian;
- tasks'prev : zero+32 : offset(3168), bigendian;
- mm : zero+32 : offset(3200), bigendian;
- active_mm : zero+32 : offset(3232), bigendian;
- comm : 128 : offset(5576), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 392L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 396L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_17", "failed to match kernel structure"));;
-let parser_18 bits = bitmatch bits with
- | { state : zero+64 : offset(0), bigendian;
- prio : zero+32 : offset(224), bigendian;
- static_prio : zero+32 : offset(256), bigendian;
- normal_prio : zero+32 : offset(288), bigendian;
- tasks'next : zero+64 : offset(3648), bigendian;
- tasks'prev : zero+64 : offset(3712), bigendian;
- mm : zero+64 : offset(3776), bigendian;
- active_mm : zero+64 : offset(3840), bigendian;
- comm : 128 : offset(7752), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 456L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 464L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_18", "failed to match kernel structure"));;
-let parser_19 bits = bitmatch bits with
- | { state : zero+64 : offset(0), littleendian;
- prio : zero+32 : offset(320), littleendian;
- static_prio : zero+32 : offset(352), littleendian;
- normal_prio : zero+32 : offset(384), littleendian;
- tasks'next : zero+64 : offset(1728), littleendian;
- tasks'prev : zero+64 : offset(1792), littleendian;
- mm : zero+64 : offset(1856), littleendian;
- active_mm : zero+64 : offset(1920), littleendian;
- comm : 128 : offset(5568), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 216L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 224L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_19", "failed to match kernel structure"));;
-let parser_20 bits = bitmatch bits with
- | { state : zero+32 : offset(0), littleendian;
- prio : zero+32 : offset(160), littleendian;
- static_prio : zero+32 : offset(192), littleendian;
- normal_prio : zero+32 : offset(224), littleendian;
- tasks'next : zero+32 : offset(3232), littleendian;
- tasks'prev : zero+32 : offset(3264), littleendian;
- mm : zero+32 : offset(3296), littleendian;
- active_mm : zero+32 : offset(3328), littleendian;
- comm : 128 : offset(5928), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 404L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 408L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_20", "failed to match kernel structure"));;
-let parser_21 bits = bitmatch bits with
- | { state : zero+64 : offset(0), littleendian;
- prio : zero+32 : offset(256), littleendian;
- static_prio : zero+32 : offset(288), littleendian;
- normal_prio : zero+32 : offset(320), littleendian;
- tasks'next : zero+64 : offset(1408), littleendian;
- tasks'prev : zero+64 : offset(1472), littleendian;
- mm : zero+64 : offset(1536), littleendian;
- active_mm : zero+64 : offset(1600), littleendian;
- comm : 128 : offset(5184), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 176L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 184L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_21", "failed to match kernel structure"));;
-let parser_22 bits = bitmatch bits with
- | { state : zero+64 : offset(0), bigendian;
- prio : zero+32 : offset(256), bigendian;
- static_prio : zero+32 : offset(288), bigendian;
- normal_prio : zero+32 : offset(320), bigendian;
- tasks'next : zero+64 : offset(1472), bigendian;
- tasks'prev : zero+64 : offset(1536), bigendian;
- mm : zero+64 : offset(1600), bigendian;
- active_mm : zero+64 : offset(1664), bigendian;
- comm : 128 : offset(5184), string } -> { state = state;
- prio = prio;
- static_prio = static_prio;
- normal_prio = normal_prio;
- tasks'next = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'next 184L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- tasks'prev = (Virt_mem_mmap.unsafe_typed_addr_of_addr (Int64.sub tasks'prev 192L) : [ `task_struct ] Virt_mem_mmap.typed_addr);
- mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- active_mm = (Virt_mem_mmap.unsafe_typed_addr_of_addr active_mm : [ `mm_struct ] Virt_mem_mmap.typed_addr);
- comm = comm }
- | { _ } -> raise (ParseError ("task_struct", "parser_22", "failed to match kernel structure"));;
+ { task_struct_state : int64; task_struct_prio : int64;
+ task_struct_normal_prio : int64; task_struct_static_prio : int64;
+ task_struct_tasks'prev : Virt_mem_mmap.addr;
+ task_struct_tasks'next : Virt_mem_mmap.addr;
+ task_struct_mm : Virt_mem_mmap.addr;
+ task_struct_active_mm : Virt_mem_mmap.addr; task_struct_comm : string;
+ task_struct_pid : int64
+ };;
+type fs_t =
+ { __fs_task_struct_state : Virt_mem_types.fieldsig;
+ __fs_task_struct_prio : Virt_mem_types.fieldsig;
+ __fs_task_struct_normal_prio : Virt_mem_types.fieldsig;
+ __fs_task_struct_static_prio : Virt_mem_types.fieldsig;
+ __fs_task_struct_tasks'prev : Virt_mem_types.fieldsig;
+ __fs_task_struct_tasks'next : Virt_mem_types.fieldsig;
+ __fs_task_struct_mm : Virt_mem_types.fieldsig;
+ __fs_task_struct_active_mm : Virt_mem_types.fieldsig;
+ __fs_task_struct_comm : Virt_mem_types.fieldsig;
+ __fs_task_struct_pid : Virt_mem_types.fieldsig
+ };;
+let fieldsig_1 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 124; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 128; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 132; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 136; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 168; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 404; };
+ };;
+let fieldsig_2 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 20; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 268; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 272; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 276; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 280; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 312; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 564; };
+ };;
+let fieldsig_3 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 420; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 424; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 428; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 432; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 464; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 761; };
+ };;
+let fieldsig_4 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 268; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 272; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 292; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 296; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 328; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 568; };
+ };;
+let fieldsig_5 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 276; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 280; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 300; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 304; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 336; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 576; };
+ };;
+let fieldsig_6 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 20; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 272; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 276; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 280; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 284; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 316; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 552; };
+ };;
+let fieldsig_7 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 20; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 268; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 272; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 276; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 280; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 312; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 548; };
+ };;
+let fieldsig_8 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 20; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 376; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 380; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 384; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 388; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 420; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 677; };
+ };;
+let fieldsig_9 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 448; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 452; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 456; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 460; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 492; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 788; };
+ };;
+let fieldsig_10 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 40; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 44; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 48; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 192; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 200; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 208; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 216; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 268; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 680; };
+ };;
+let fieldsig_11 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 352; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 360; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 368; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 376; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 416; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 856; };
+ };;
+let fieldsig_12 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 40; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 512; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 520; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 528; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 536; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 576; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 1089; };
+ };;
+let fieldsig_13 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 128; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 132; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 136; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 140; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 172; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 408; };
+ };;
+let fieldsig_14 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 40; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 44; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 48; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 200; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 208; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 216; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 224; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 276; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 680; };
+ };;
+let fieldsig_15 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 40; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 44; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 48; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 216; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 224; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 232; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 240; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 292; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 696; };
+ };;
+let fieldsig_16 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 40; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 184; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 192; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 200; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 208; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 248; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 648; };
+ };;
+let fieldsig_17 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 40; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 176; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 184; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 192; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 200; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 240; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 648; };
+ };;
+let fieldsig_18 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 280; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 284; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 304; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 308; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 340; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 584; };
+ };;
+let fieldsig_19 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 40; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 336; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 344; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 384; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 392; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 432; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 840; };
+ };;
+let fieldsig_20 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 40; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 328; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 336; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 376; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 384; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 424; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 840; };
+ };;
+let fieldsig_21 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 288; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 292; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 312; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 316; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 348; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 592; };
+ };;
+let fieldsig_22 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 40; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 360; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 368; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 408; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 416; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 456; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 864; };
+ };;
+let fieldsig_23 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 40; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 352; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 360; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 400; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 408; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 448; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 864; };
+ };;
+let fieldsig_24 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 20; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 280; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 284; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 288; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 292; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 324; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 560; };
+ };;
+let fieldsig_25 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 352; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 360; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 368; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 376; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 416; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 816; };
+ };;
+let fieldsig_26 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 344; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 352; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 360; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 368; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 408; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 816; };
+ };;
+let fieldsig_27 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 20; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 272; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 276; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 280; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 284; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 316; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 552; };
+ };;
+let fieldsig_28 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 360; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 368; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 376; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 384; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 424; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 824; };
+ };;
+let fieldsig_29 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 352; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 360; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 368; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 376; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 416; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 824; };
+ };;
+let fieldsig_30 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 20; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 280; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 284; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 288; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 292; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 324; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 576; };
+ };;
+let fieldsig_31 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 360; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 368; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 376; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 384; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 424; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 856; };
+ };;
+let fieldsig_32 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 20; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 392; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 396; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 400; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 404; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 436; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 697; };
+ };;
+let fieldsig_33 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 456; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 464; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 472; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 480; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 520; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 969; };
+ };;
+let fieldsig_34 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 456; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 464; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 472; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 480; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 520; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 977; };
+ };;
+let fieldsig_35 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 20; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 404; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 408; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 412; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 416; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 448; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 741; };
+ };;
+let fieldsig_36 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 480; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 488; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 496; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 504; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 544; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 1049; };
+ };;
+let fieldsig_37 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 416; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 420; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 424; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 428; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 460; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 757; };
+ };;
+let fieldsig_38 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 40; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 512; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 520; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 528; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 536; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 576; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 1089; };
+ };;
+let fieldsig_39 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 424; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 428; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 432; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 436; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 468; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 765; };
+ };;
+let fieldsig_40 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 444; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 448; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 452; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 456; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 488; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 784; };
+ };;
+let fieldsig_41 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 24; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 28; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 464; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 468; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 472; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 476; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 508; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 808; };
+ };;
+let fieldsig_42 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 40; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 560; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 568; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 576; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 584; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 624; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 1128; };
+ };;
+let fieldsig_43 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 32; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 36; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 40; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 560; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 568; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 576; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 584; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 624; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 1128; };
+ };;
+let fieldsig_44 =
+ {
+ __fs_task_struct_state =
+ { Virt_mem_types.field_available = true; field_offset = 0; };
+ __fs_task_struct_prio =
+ { Virt_mem_types.field_available = true; field_offset = 40; };
+ __fs_task_struct_static_prio =
+ { Virt_mem_types.field_available = true; field_offset = 44; };
+ __fs_task_struct_normal_prio =
+ { Virt_mem_types.field_available = true; field_offset = 48; };
+ __fs_task_struct_tasks'next =
+ { Virt_mem_types.field_available = true; field_offset = 192; };
+ __fs_task_struct_tasks'prev =
+ { Virt_mem_types.field_available = true; field_offset = 200; };
+ __fs_task_struct_mm =
+ { Virt_mem_types.field_available = true; field_offset = 208; };
+ __fs_task_struct_active_mm =
+ { Virt_mem_types.field_available = true; field_offset = 216; };
+ __fs_task_struct_pid =
+ { Virt_mem_types.field_available = true; field_offset = 268; };
+ __fs_task_struct_comm =
+ { Virt_mem_types.field_available = true; field_offset = 672; };
+ };;
+let parser_1 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(192), littleendian;
+ task_struct_static_prio : zero+32 : offset(224), littleendian;
+ task_struct_normal_prio : zero+32 : offset(256), littleendian;
+ task_struct_tasks'next : zero+32 : offset(992), littleendian;
+ task_struct_tasks'prev : zero+32 : offset(1024), littleendian;
+ task_struct_mm : zero+32 : offset(1056), littleendian;
+ task_struct_active_mm : zero+32 : offset(1088), littleendian;
+ task_struct_pid : zero+32 : offset(1344), littleendian;
+ task_struct_comm : 128 : offset(3232), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 124L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 128L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_1", match_err));;
+let parser_2 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(160), littleendian;
+ task_struct_static_prio : zero+32 : offset(192), littleendian;
+ task_struct_normal_prio : zero+32 : offset(224), littleendian;
+ task_struct_tasks'next : zero+32 : offset(2144), littleendian;
+ task_struct_tasks'prev : zero+32 : offset(2176), littleendian;
+ task_struct_mm : zero+32 : offset(2208), littleendian;
+ task_struct_active_mm : zero+32 : offset(2240), littleendian;
+ task_struct_pid : zero+32 : offset(2496), littleendian;
+ task_struct_comm : 128 : offset(4512), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 268L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 272L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_2", match_err));;
+let parser_3 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(192), littleendian;
+ task_struct_static_prio : zero+32 : offset(224), littleendian;
+ task_struct_normal_prio : zero+32 : offset(256), littleendian;
+ task_struct_tasks'next : zero+32 : offset(3360), littleendian;
+ task_struct_tasks'prev : zero+32 : offset(3392), littleendian;
+ task_struct_mm : zero+32 : offset(3424), littleendian;
+ task_struct_active_mm : zero+32 : offset(3456), littleendian;
+ task_struct_pid : zero+32 : offset(3712), littleendian;
+ task_struct_comm : 128 : offset(6088), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 420L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 424L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_3", match_err));;
+let parser_4 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(192), littleendian;
+ task_struct_static_prio : zero+32 : offset(224), littleendian;
+ task_struct_normal_prio : zero+32 : offset(256), littleendian;
+ task_struct_tasks'next : zero+32 : offset(2144), littleendian;
+ task_struct_tasks'prev : zero+32 : offset(2176), littleendian;
+ task_struct_mm : zero+32 : offset(2336), littleendian;
+ task_struct_active_mm : zero+32 : offset(2368), littleendian;
+ task_struct_pid : zero+32 : offset(2624), littleendian;
+ task_struct_comm : 128 : offset(4544), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 268L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 272L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_4", match_err));;
+let parser_5 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(192), littleendian;
+ task_struct_static_prio : zero+32 : offset(224), littleendian;
+ task_struct_normal_prio : zero+32 : offset(256), littleendian;
+ task_struct_tasks'next : zero+32 : offset(2208), littleendian;
+ task_struct_tasks'prev : zero+32 : offset(2240), littleendian;
+ task_struct_mm : zero+32 : offset(2400), littleendian;
+ task_struct_active_mm : zero+32 : offset(2432), littleendian;
+ task_struct_pid : zero+32 : offset(2688), littleendian;
+ task_struct_comm : 128 : offset(4608), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 276L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 280L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_5", match_err));;
+let parser_6 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(160), littleendian;
+ task_struct_static_prio : zero+32 : offset(192), littleendian;
+ task_struct_normal_prio : zero+32 : offset(224), littleendian;
+ task_struct_tasks'next : zero+32 : offset(2176), littleendian;
+ task_struct_tasks'prev : zero+32 : offset(2208), littleendian;
+ task_struct_mm : zero+32 : offset(2240), littleendian;
+ task_struct_active_mm : zero+32 : offset(2272), littleendian;
+ task_struct_pid : zero+32 : offset(2528), littleendian;
+ task_struct_comm : 128 : offset(4416), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 272L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 276L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_6", match_err));;
+let parser_7 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(160), littleendian;
+ task_struct_static_prio : zero+32 : offset(192), littleendian;
+ task_struct_normal_prio : zero+32 : offset(224), littleendian;
+ task_struct_tasks'next : zero+32 : offset(2144), littleendian;
+ task_struct_tasks'prev : zero+32 : offset(2176), littleendian;
+ task_struct_mm : zero+32 : offset(2208), littleendian;
+ task_struct_active_mm : zero+32 : offset(2240), littleendian;
+ task_struct_pid : zero+32 : offset(2496), littleendian;
+ task_struct_comm : 128 : offset(4384), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 268L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 272L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_7", match_err));;
+let parser_8 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(160), littleendian;
+ task_struct_static_prio : zero+32 : offset(192), littleendian;
+ task_struct_normal_prio : zero+32 : offset(224), littleendian;
+ task_struct_tasks'next : zero+32 : offset(3008), littleendian;
+ task_struct_tasks'prev : zero+32 : offset(3040), littleendian;
+ task_struct_mm : zero+32 : offset(3072), littleendian;
+ task_struct_active_mm : zero+32 : offset(3104), littleendian;
+ task_struct_pid : zero+32 : offset(3360), littleendian;
+ task_struct_comm : 128 : offset(5416), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 376L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 380L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_8", match_err));;
+let parser_9 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(192), littleendian;
+ task_struct_static_prio : zero+32 : offset(224), littleendian;
+ task_struct_normal_prio : zero+32 : offset(256), littleendian;
+ task_struct_tasks'next : zero+32 : offset(3584), littleendian;
+ task_struct_tasks'prev : zero+32 : offset(3616), littleendian;
+ task_struct_mm : zero+32 : offset(3648), littleendian;
+ task_struct_active_mm : zero+32 : offset(3680), littleendian;
+ task_struct_pid : zero+32 : offset(3936), littleendian;
+ task_struct_comm : 128 : offset(6304), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 448L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 452L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_9", match_err));;
+let parser_10 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(320), littleendian;
+ task_struct_static_prio : zero+32 : offset(352), littleendian;
+ task_struct_normal_prio : zero+32 : offset(384), littleendian;
+ task_struct_tasks'next : zero+64 : offset(1536), littleendian;
+ task_struct_tasks'prev : zero+64 : offset(1600), littleendian;
+ task_struct_mm : zero+64 : offset(1664), littleendian;
+ task_struct_active_mm : zero+64 : offset(1728), littleendian;
+ task_struct_pid : zero+32 : offset(2144), littleendian;
+ task_struct_comm : 128 : offset(5440), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 192L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 200L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_10", match_err));;
+let parser_11 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(224), littleendian;
+ task_struct_static_prio : zero+32 : offset(256), littleendian;
+ task_struct_normal_prio : zero+32 : offset(288), littleendian;
+ task_struct_tasks'next : zero+64 : offset(2816), littleendian;
+ task_struct_tasks'prev : zero+64 : offset(2880), littleendian;
+ task_struct_mm : zero+64 : offset(2944), littleendian;
+ task_struct_active_mm : zero+64 : offset(3008), littleendian;
+ task_struct_pid : zero+32 : offset(3328), littleendian;
+ task_struct_comm : 128 : offset(6848), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 352L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 360L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_11", match_err));;
+let parser_12 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(256), littleendian;
+ task_struct_static_prio : zero+32 : offset(288), littleendian;
+ task_struct_normal_prio : zero+32 : offset(320), littleendian;
+ task_struct_tasks'next : zero+64 : offset(4096), littleendian;
+ task_struct_tasks'prev : zero+64 : offset(4160), littleendian;
+ task_struct_mm : zero+64 : offset(4224), littleendian;
+ task_struct_active_mm : zero+64 : offset(4288), littleendian;
+ task_struct_pid : zero+32 : offset(4608), littleendian;
+ task_struct_comm : 128 : offset(8712), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 512L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 520L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_12", match_err));;
+let parser_13 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(192), bigendian;
+ task_struct_static_prio : zero+32 : offset(224), bigendian;
+ task_struct_normal_prio : zero+32 : offset(256), bigendian;
+ task_struct_tasks'next : zero+32 : offset(1024), bigendian;
+ task_struct_tasks'prev : zero+32 : offset(1056), bigendian;
+ task_struct_mm : zero+32 : offset(1088), bigendian;
+ task_struct_active_mm : zero+32 : offset(1120), bigendian;
+ task_struct_pid : zero+32 : offset(1376), bigendian;
+ task_struct_comm : 128 : offset(3264), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 128L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 132L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_13", match_err));;
+let parser_14 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(320), bigendian;
+ task_struct_static_prio : zero+32 : offset(352), bigendian;
+ task_struct_normal_prio : zero+32 : offset(384), bigendian;
+ task_struct_tasks'next : zero+64 : offset(1600), bigendian;
+ task_struct_tasks'prev : zero+64 : offset(1664), bigendian;
+ task_struct_mm : zero+64 : offset(1728), bigendian;
+ task_struct_active_mm : zero+64 : offset(1792), bigendian;
+ task_struct_pid : zero+32 : offset(2208), bigendian;
+ task_struct_comm : 128 : offset(5440), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 200L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 208L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_14", match_err));;
+let parser_15 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(320), littleendian;
+ task_struct_static_prio : zero+32 : offset(352), littleendian;
+ task_struct_normal_prio : zero+32 : offset(384), littleendian;
+ task_struct_tasks'next : zero+64 : offset(1728), littleendian;
+ task_struct_tasks'prev : zero+64 : offset(1792), littleendian;
+ task_struct_mm : zero+64 : offset(1856), littleendian;
+ task_struct_active_mm : zero+64 : offset(1920), littleendian;
+ task_struct_pid : zero+32 : offset(2336), littleendian;
+ task_struct_comm : 128 : offset(5568), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 216L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 224L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_15", match_err));;
+let parser_16 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(256), bigendian;
+ task_struct_static_prio : zero+32 : offset(288), bigendian;
+ task_struct_normal_prio : zero+32 : offset(320), bigendian;
+ task_struct_tasks'next : zero+64 : offset(1472), bigendian;
+ task_struct_tasks'prev : zero+64 : offset(1536), bigendian;
+ task_struct_mm : zero+64 : offset(1600), bigendian;
+ task_struct_active_mm : zero+64 : offset(1664), bigendian;
+ task_struct_pid : zero+32 : offset(1984), bigendian;
+ task_struct_comm : 128 : offset(5184), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 184L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 192L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_16", match_err));;
+let parser_17 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(256), littleendian;
+ task_struct_static_prio : zero+32 : offset(288), littleendian;
+ task_struct_normal_prio : zero+32 : offset(320), littleendian;
+ task_struct_tasks'next : zero+64 : offset(1408), littleendian;
+ task_struct_tasks'prev : zero+64 : offset(1472), littleendian;
+ task_struct_mm : zero+64 : offset(1536), littleendian;
+ task_struct_active_mm : zero+64 : offset(1600), littleendian;
+ task_struct_pid : zero+32 : offset(1920), littleendian;
+ task_struct_comm : 128 : offset(5184), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 176L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 184L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_17", match_err));;
+let parser_18 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(192), bigendian;
+ task_struct_static_prio : zero+32 : offset(224), bigendian;
+ task_struct_normal_prio : zero+32 : offset(256), bigendian;
+ task_struct_tasks'next : zero+32 : offset(2240), bigendian;
+ task_struct_tasks'prev : zero+32 : offset(2272), bigendian;
+ task_struct_mm : zero+32 : offset(2432), bigendian;
+ task_struct_active_mm : zero+32 : offset(2464), bigendian;
+ task_struct_pid : zero+32 : offset(2720), bigendian;
+ task_struct_comm : 128 : offset(4672), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 280L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 284L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_18", match_err));;
+let parser_19 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(256), bigendian;
+ task_struct_static_prio : zero+32 : offset(288), bigendian;
+ task_struct_normal_prio : zero+32 : offset(320), bigendian;
+ task_struct_tasks'next : zero+64 : offset(2688), bigendian;
+ task_struct_tasks'prev : zero+64 : offset(2752), bigendian;
+ task_struct_mm : zero+64 : offset(3072), bigendian;
+ task_struct_active_mm : zero+64 : offset(3136), bigendian;
+ task_struct_pid : zero+32 : offset(3456), bigendian;
+ task_struct_comm : 128 : offset(6720), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 336L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 344L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_19", match_err));;
+let parser_20 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(256), littleendian;
+ task_struct_static_prio : zero+32 : offset(288), littleendian;
+ task_struct_normal_prio : zero+32 : offset(320), littleendian;
+ task_struct_tasks'next : zero+64 : offset(2624), littleendian;
+ task_struct_tasks'prev : zero+64 : offset(2688), littleendian;
+ task_struct_mm : zero+64 : offset(3008), littleendian;
+ task_struct_active_mm : zero+64 : offset(3072), littleendian;
+ task_struct_pid : zero+32 : offset(3392), littleendian;
+ task_struct_comm : 128 : offset(6720), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 328L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 336L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_20", match_err));;
+let parser_21 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(192), bigendian;
+ task_struct_static_prio : zero+32 : offset(224), bigendian;
+ task_struct_normal_prio : zero+32 : offset(256), bigendian;
+ task_struct_tasks'next : zero+32 : offset(2304), bigendian;
+ task_struct_tasks'prev : zero+32 : offset(2336), bigendian;
+ task_struct_mm : zero+32 : offset(2496), bigendian;
+ task_struct_active_mm : zero+32 : offset(2528), bigendian;
+ task_struct_pid : zero+32 : offset(2784), bigendian;
+ task_struct_comm : 128 : offset(4736), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 288L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 292L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_21", match_err));;
+let parser_22 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(256), bigendian;
+ task_struct_static_prio : zero+32 : offset(288), bigendian;
+ task_struct_normal_prio : zero+32 : offset(320), bigendian;
+ task_struct_tasks'next : zero+64 : offset(2880), bigendian;
+ task_struct_tasks'prev : zero+64 : offset(2944), bigendian;
+ task_struct_mm : zero+64 : offset(3264), bigendian;
+ task_struct_active_mm : zero+64 : offset(3328), bigendian;
+ task_struct_pid : zero+32 : offset(3648), bigendian;
+ task_struct_comm : 128 : offset(6912), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 360L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 368L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_22", match_err));;
+let parser_23 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(256), littleendian;
+ task_struct_static_prio : zero+32 : offset(288), littleendian;
+ task_struct_normal_prio : zero+32 : offset(320), littleendian;
+ task_struct_tasks'next : zero+64 : offset(2816), littleendian;
+ task_struct_tasks'prev : zero+64 : offset(2880), littleendian;
+ task_struct_mm : zero+64 : offset(3200), littleendian;
+ task_struct_active_mm : zero+64 : offset(3264), littleendian;
+ task_struct_pid : zero+32 : offset(3584), littleendian;
+ task_struct_comm : 128 : offset(6912), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 352L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 360L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_23", match_err));;
+let parser_24 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(160), bigendian;
+ task_struct_static_prio : zero+32 : offset(192), bigendian;
+ task_struct_normal_prio : zero+32 : offset(224), bigendian;
+ task_struct_tasks'next : zero+32 : offset(2240), bigendian;
+ task_struct_tasks'prev : zero+32 : offset(2272), bigendian;
+ task_struct_mm : zero+32 : offset(2304), bigendian;
+ task_struct_active_mm : zero+32 : offset(2336), bigendian;
+ task_struct_pid : zero+32 : offset(2592), bigendian;
+ task_struct_comm : 128 : offset(4480), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 280L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 284L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_24", match_err));;
+let parser_25 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(224), bigendian;
+ task_struct_static_prio : zero+32 : offset(256), bigendian;
+ task_struct_normal_prio : zero+32 : offset(288), bigendian;
+ task_struct_tasks'next : zero+64 : offset(2816), bigendian;
+ task_struct_tasks'prev : zero+64 : offset(2880), bigendian;
+ task_struct_mm : zero+64 : offset(2944), bigendian;
+ task_struct_active_mm : zero+64 : offset(3008), bigendian;
+ task_struct_pid : zero+32 : offset(3328), bigendian;
+ task_struct_comm : 128 : offset(6528), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 352L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 360L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_25", match_err));;
+let parser_26 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(224), littleendian;
+ task_struct_static_prio : zero+32 : offset(256), littleendian;
+ task_struct_normal_prio : zero+32 : offset(288), littleendian;
+ task_struct_tasks'next : zero+64 : offset(2752), littleendian;
+ task_struct_tasks'prev : zero+64 : offset(2816), littleendian;
+ task_struct_mm : zero+64 : offset(2880), littleendian;
+ task_struct_active_mm : zero+64 : offset(2944), littleendian;
+ task_struct_pid : zero+32 : offset(3264), littleendian;
+ task_struct_comm : 128 : offset(6528), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 344L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 352L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_26", match_err));;
+let parser_27 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(160), bigendian;
+ task_struct_static_prio : zero+32 : offset(192), bigendian;
+ task_struct_normal_prio : zero+32 : offset(224), bigendian;
+ task_struct_tasks'next : zero+32 : offset(2176), bigendian;
+ task_struct_tasks'prev : zero+32 : offset(2208), bigendian;
+ task_struct_mm : zero+32 : offset(2240), bigendian;
+ task_struct_active_mm : zero+32 : offset(2272), bigendian;
+ task_struct_pid : zero+32 : offset(2528), bigendian;
+ task_struct_comm : 128 : offset(4416), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 272L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 276L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_27", match_err));;
+let parser_28 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(224), bigendian;
+ task_struct_static_prio : zero+32 : offset(256), bigendian;
+ task_struct_normal_prio : zero+32 : offset(288), bigendian;
+ task_struct_tasks'next : zero+64 : offset(2880), bigendian;
+ task_struct_tasks'prev : zero+64 : offset(2944), bigendian;
+ task_struct_mm : zero+64 : offset(3008), bigendian;
+ task_struct_active_mm : zero+64 : offset(3072), bigendian;
+ task_struct_pid : zero+32 : offset(3392), bigendian;
+ task_struct_comm : 128 : offset(6592), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 360L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 368L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_28", match_err));;
+let parser_29 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(224), littleendian;
+ task_struct_static_prio : zero+32 : offset(256), littleendian;
+ task_struct_normal_prio : zero+32 : offset(288), littleendian;
+ task_struct_tasks'next : zero+64 : offset(2816), littleendian;
+ task_struct_tasks'prev : zero+64 : offset(2880), littleendian;
+ task_struct_mm : zero+64 : offset(2944), littleendian;
+ task_struct_active_mm : zero+64 : offset(3008), littleendian;
+ task_struct_pid : zero+32 : offset(3328), littleendian;
+ task_struct_comm : 128 : offset(6592), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 352L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 360L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_29", match_err));;
+let parser_30 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(160), bigendian;
+ task_struct_static_prio : zero+32 : offset(192), bigendian;
+ task_struct_normal_prio : zero+32 : offset(224), bigendian;
+ task_struct_tasks'next : zero+32 : offset(2240), bigendian;
+ task_struct_tasks'prev : zero+32 : offset(2272), bigendian;
+ task_struct_mm : zero+32 : offset(2304), bigendian;
+ task_struct_active_mm : zero+32 : offset(2336), bigendian;
+ task_struct_pid : zero+32 : offset(2592), bigendian;
+ task_struct_comm : 128 : offset(4608), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 280L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 284L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_30", match_err));;
+let parser_31 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(224), bigendian;
+ task_struct_static_prio : zero+32 : offset(256), bigendian;
+ task_struct_normal_prio : zero+32 : offset(288), bigendian;
+ task_struct_tasks'next : zero+64 : offset(2880), bigendian;
+ task_struct_tasks'prev : zero+64 : offset(2944), bigendian;
+ task_struct_mm : zero+64 : offset(3008), bigendian;
+ task_struct_active_mm : zero+64 : offset(3072), bigendian;
+ task_struct_pid : zero+32 : offset(3392), bigendian;
+ task_struct_comm : 128 : offset(6848), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 360L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 368L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_31", match_err));;
+let parser_32 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(160), bigendian;
+ task_struct_static_prio : zero+32 : offset(192), bigendian;
+ task_struct_normal_prio : zero+32 : offset(224), bigendian;
+ task_struct_tasks'next : zero+32 : offset(3136), bigendian;
+ task_struct_tasks'prev : zero+32 : offset(3168), bigendian;
+ task_struct_mm : zero+32 : offset(3200), bigendian;
+ task_struct_active_mm : zero+32 : offset(3232), bigendian;
+ task_struct_pid : zero+32 : offset(3488), bigendian;
+ task_struct_comm : 128 : offset(5576), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 392L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 396L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_32", match_err));;
+let parser_33 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(224), bigendian;
+ task_struct_static_prio : zero+32 : offset(256), bigendian;
+ task_struct_normal_prio : zero+32 : offset(288), bigendian;
+ task_struct_tasks'next : zero+64 : offset(3648), bigendian;
+ task_struct_tasks'prev : zero+64 : offset(3712), bigendian;
+ task_struct_mm : zero+64 : offset(3776), bigendian;
+ task_struct_active_mm : zero+64 : offset(3840), bigendian;
+ task_struct_pid : zero+32 : offset(4160), bigendian;
+ task_struct_comm : 128 : offset(7752), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 456L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 464L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_33", match_err));;
+let parser_34 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(224), littleendian;
+ task_struct_static_prio : zero+32 : offset(256), littleendian;
+ task_struct_normal_prio : zero+32 : offset(288), littleendian;
+ task_struct_tasks'next : zero+64 : offset(3648), littleendian;
+ task_struct_tasks'prev : zero+64 : offset(3712), littleendian;
+ task_struct_mm : zero+64 : offset(3776), littleendian;
+ task_struct_active_mm : zero+64 : offset(3840), littleendian;
+ task_struct_pid : zero+32 : offset(4160), littleendian;
+ task_struct_comm : 128 : offset(7816), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 456L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 464L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_34", match_err));;
+let parser_35 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(160), littleendian;
+ task_struct_static_prio : zero+32 : offset(192), littleendian;
+ task_struct_normal_prio : zero+32 : offset(224), littleendian;
+ task_struct_tasks'next : zero+32 : offset(3232), littleendian;
+ task_struct_tasks'prev : zero+32 : offset(3264), littleendian;
+ task_struct_mm : zero+32 : offset(3296), littleendian;
+ task_struct_active_mm : zero+32 : offset(3328), littleendian;
+ task_struct_pid : zero+32 : offset(3584), littleendian;
+ task_struct_comm : 128 : offset(5928), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 404L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 408L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_35", match_err));;
+let parser_36 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(224), littleendian;
+ task_struct_static_prio : zero+32 : offset(256), littleendian;
+ task_struct_normal_prio : zero+32 : offset(288), littleendian;
+ task_struct_tasks'next : zero+64 : offset(3840), littleendian;
+ task_struct_tasks'prev : zero+64 : offset(3904), littleendian;
+ task_struct_mm : zero+64 : offset(3968), littleendian;
+ task_struct_active_mm : zero+64 : offset(4032), littleendian;
+ task_struct_pid : zero+32 : offset(4352), littleendian;
+ task_struct_comm : 128 : offset(8392), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 480L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 488L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_36", match_err));;
+let parser_37 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(192), littleendian;
+ task_struct_static_prio : zero+32 : offset(224), littleendian;
+ task_struct_normal_prio : zero+32 : offset(256), littleendian;
+ task_struct_tasks'next : zero+32 : offset(3328), littleendian;
+ task_struct_tasks'prev : zero+32 : offset(3360), littleendian;
+ task_struct_mm : zero+32 : offset(3392), littleendian;
+ task_struct_active_mm : zero+32 : offset(3424), littleendian;
+ task_struct_pid : zero+32 : offset(3680), littleendian;
+ task_struct_comm : 128 : offset(6056), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 416L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 420L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_37", match_err));;
+let parser_38 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(256), bigendian;
+ task_struct_static_prio : zero+32 : offset(288), bigendian;
+ task_struct_normal_prio : zero+32 : offset(320), bigendian;
+ task_struct_tasks'next : zero+64 : offset(4096), bigendian;
+ task_struct_tasks'prev : zero+64 : offset(4160), bigendian;
+ task_struct_mm : zero+64 : offset(4224), bigendian;
+ task_struct_active_mm : zero+64 : offset(4288), bigendian;
+ task_struct_pid : zero+32 : offset(4608), bigendian;
+ task_struct_comm : 128 : offset(8712), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 512L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 520L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_38", match_err));;
+let parser_39 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(192), bigendian;
+ task_struct_static_prio : zero+32 : offset(224), bigendian;
+ task_struct_normal_prio : zero+32 : offset(256), bigendian;
+ task_struct_tasks'next : zero+32 : offset(3392), bigendian;
+ task_struct_tasks'prev : zero+32 : offset(3424), bigendian;
+ task_struct_mm : zero+32 : offset(3456), bigendian;
+ task_struct_active_mm : zero+32 : offset(3488), bigendian;
+ task_struct_pid : zero+32 : offset(3744), bigendian;
+ task_struct_comm : 128 : offset(6120), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 424L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 428L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_39", match_err));;
+let parser_40 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(192), littleendian;
+ task_struct_static_prio : zero+32 : offset(224), littleendian;
+ task_struct_normal_prio : zero+32 : offset(256), littleendian;
+ task_struct_tasks'next : zero+32 : offset(3552), littleendian;
+ task_struct_tasks'prev : zero+32 : offset(3584), littleendian;
+ task_struct_mm : zero+32 : offset(3616), littleendian;
+ task_struct_active_mm : zero+32 : offset(3648), littleendian;
+ task_struct_pid : zero+32 : offset(3904), littleendian;
+ task_struct_comm : 128 : offset(6272), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 444L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 448L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_40", match_err));;
+let parser_41 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+32 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(192), bigendian;
+ task_struct_static_prio : zero+32 : offset(224), bigendian;
+ task_struct_normal_prio : zero+32 : offset(256), bigendian;
+ task_struct_tasks'next : zero+32 : offset(3712), bigendian;
+ task_struct_tasks'prev : zero+32 : offset(3744), bigendian;
+ task_struct_mm : zero+32 : offset(3776), bigendian;
+ task_struct_active_mm : zero+32 : offset(3808), bigendian;
+ task_struct_pid : zero+32 : offset(4064), bigendian;
+ task_struct_comm : 128 : offset(6464), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 464L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 468L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_41", match_err));;
+let parser_42 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), bigendian;
+ task_struct_prio : zero+32 : offset(256), bigendian;
+ task_struct_static_prio : zero+32 : offset(288), bigendian;
+ task_struct_normal_prio : zero+32 : offset(320), bigendian;
+ task_struct_tasks'next : zero+64 : offset(4480), bigendian;
+ task_struct_tasks'prev : zero+64 : offset(4544), bigendian;
+ task_struct_mm : zero+64 : offset(4608), bigendian;
+ task_struct_active_mm : zero+64 : offset(4672), bigendian;
+ task_struct_pid : zero+32 : offset(4992), bigendian;
+ task_struct_comm : 128 : offset(9024), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 560L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 568L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_42", match_err));;
+let parser_43 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(256), littleendian;
+ task_struct_static_prio : zero+32 : offset(288), littleendian;
+ task_struct_normal_prio : zero+32 : offset(320), littleendian;
+ task_struct_tasks'next : zero+64 : offset(4480), littleendian;
+ task_struct_tasks'prev : zero+64 : offset(4544), littleendian;
+ task_struct_mm : zero+64 : offset(4608), littleendian;
+ task_struct_active_mm : zero+64 : offset(4672), littleendian;
+ task_struct_pid : zero+32 : offset(4992), littleendian;
+ task_struct_comm : 128 : offset(9024), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 560L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 568L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_43", match_err));;
+let parser_44 bits =
+ bitmatch bits with
+ | { task_struct_state : zero+64 : offset(0), littleendian;
+ task_struct_prio : zero+32 : offset(320), littleendian;
+ task_struct_static_prio : zero+32 : offset(352), littleendian;
+ task_struct_normal_prio : zero+32 : offset(384), littleendian;
+ task_struct_tasks'next : zero+64 : offset(1536), littleendian;
+ task_struct_tasks'prev : zero+64 : offset(1600), littleendian;
+ task_struct_mm : zero+64 : offset(1664), littleendian;
+ task_struct_active_mm : zero+64 : offset(1728), littleendian;
+ task_struct_pid : zero+32 : offset(2144), littleendian;
+ task_struct_comm : 128 : offset(5376), string } ->
+ { task_struct_state = task_struct_state;
+ task_struct_prio = task_struct_prio;
+ task_struct_static_prio = task_struct_static_prio;
+ task_struct_normal_prio = task_struct_normal_prio;
+ task_struct_tasks'next = Int64.sub task_struct_tasks'next 192L;
+ task_struct_tasks'prev = Int64.sub task_struct_tasks'prev 200L;
+ task_struct_mm = task_struct_mm;
+ task_struct_active_mm = task_struct_active_mm;
+ task_struct_pid = task_struct_pid;
+ task_struct_comm = task_struct_comm }
+ | { _ } ->
+ raise (Virt_mem_types.ParseError (struct_name, "parser_44", match_err));;