objectdump.rs 4.8 KB
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use utils::Address;
use utils::ByteSize;
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use utils::POINTER_SIZE;
use common::gctype::*;

use MY_GC;
use objectmodel;

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use std::collections::HashMap;
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use std::sync::Arc;
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pub struct HeapDump {
    pub objects: HashMap<Address, ObjectDump>,
    pub relocatable_refs: HashMap<Address, String>
}

pub struct ObjectDump {
    pub mem_start: Address,
    pub mem_size : ByteSize,
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    pub reference_addr: Address,
    pub reference_offsets: Vec<ByteSize> // based on reference_addr
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}

impl HeapDump {
    pub fn from_roots(roots: Vec<Address>) -> HeapDump {
        let mut work_queue : Vec<Address> = roots;
        let mut heap : HeapDump = HeapDump {
            objects: HashMap::new(),
            relocatable_refs: HashMap::new()
        };

        while !work_queue.is_empty() {
            let obj = work_queue.pop().unwrap();

            if !heap.objects.contains_key(&obj) {
                // add this object to heap dump
                let obj_dump = heap.persist_object(obj);
                heap.objects.insert(obj, obj_dump);

                heap.keep_tracing(heap.objects.get(&obj).unwrap(), &mut work_queue);
            }
        }

        heap.label_relocatable_refs();

        heap
    }

    fn persist_object(&self, obj: Address) -> ObjectDump {
        let hdr_addr = obj.offset(objectmodel::OBJECT_HEADER_OFFSET);
        let hdr = unsafe {hdr_addr.load::<u64>()};

        if objectmodel::header_is_fix_size(hdr) {
            // fix sized type
            if objectmodel::header_has_ref_map(hdr) {
                // has ref map
                let ref_map = objectmodel::header_get_ref_map(hdr);

                let mut offsets = vec![];
                let mut i = 0;
                while i < objectmodel::REF_MAP_LENGTH {
                    let has_ref : bool = ((ref_map >> i) & 1) == 1;

                    if has_ref {
                        offsets.push(i * POINTER_SIZE);
                    }

                    i += 1;
                }

                ObjectDump {
                    reference_addr   : obj,
                    mem_start        : hdr_addr,
                    mem_size         : objectmodel::header_get_object_size(hdr) as usize + objectmodel::OBJECT_HEADER_SIZE,
                    reference_offsets: offsets
                }
            } else {
                // by type ID
                let gctype_id = objectmodel::header_get_gctype_id(hdr);

                let gc_lock = MY_GC.read().unwrap();
                let gctype : Arc<GCType> = gc_lock.as_ref().unwrap().gc_types[gctype_id as usize].clone();

                ObjectDump {
                    reference_addr: obj,
                    mem_start     : hdr_addr,
                    mem_size      : gctype.size,
                    reference_offsets: gctype.gen_ref_offsets()
                }
            }
        } else {
            // hybrids - same as above
            let gctype_id = objectmodel::header_get_gctype_id(hdr);

            let gc_lock = MY_GC.read().unwrap();
            let gctype : Arc<GCType> = gc_lock.as_ref().unwrap().gc_types[gctype_id as usize].clone();

            ObjectDump {
                reference_addr: obj,
                mem_start     : hdr_addr,
                mem_size      : gctype.size,
                reference_offsets: gctype.gen_ref_offsets()
            }
        }
    }

    fn keep_tracing(&self, obj_dump: &ObjectDump, work_queue: &mut Vec<Address>) {
        let base = obj_dump.reference_addr;

        for offset in obj_dump.reference_offsets.iter() {
            let field_addr = base.plus(*offset);
            let edge = unsafe {field_addr.load::<Address>()};

            if !edge.is_zero() && !self.objects.contains_key(&edge) {
                work_queue.push(edge);
            }
        }
    }

    fn label_relocatable_refs(&mut self) {
        let mut count = 0;

        for addr in self.objects.keys() {
            let label = format!("GCDUMP_{}_{}", count, addr);
            self.relocatable_refs.insert(*addr, label);

            count += 1;
        }
    }
}

use std::fmt;

impl fmt::Debug for ObjectDump {
    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
        write!(f,
               "PersistedObject({}, {} bytes from {}, offsets at {:?})",
               self.reference_addr, self.mem_size, self.mem_start, self.reference_offsets
        )
    }
}

impl fmt::Debug for HeapDump {
    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
        write!(f, "Heap Dump\n").unwrap();

        write!(f, "---{} objects---\n", self.objects.len()).unwrap();
        for obj in self.objects.iter() {
            write!(f, "{:?}\n", obj).unwrap();
        }

        write!(f, "---{} ref labels---\n", self.relocatable_refs.len()).unwrap();
        for (addr, label) in self.relocatable_refs.iter() {
            write!(f, "{} = {}\n", addr, label).unwrap()
        }

        Ok(())
    }
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}