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use std::{collections::HashMap, hash::BuildHasher, sync::Arc};

use crate::{parse_string::parse_string, read_any, DynString, InProcSerialize, UserDefinedType};
use anyhow::{bail, Context, Result};

#[derive(Debug, Clone)]
pub struct Object {
    pub type_name: String,
    pub members: Vec<(String, Value)>,
}

impl Object {
    pub fn get<T>(&self, member_name: &str) -> Result<T>
    where
        T: TransitValue,
    {
        for m in &self.members {
            if m.0 == member_name {
                return T::get(&m.1);
            }
        }
        bail!("member {} not found in {:?}", member_name, self);
    }

    pub fn get_ref(&self, member_name: &str) -> Result<&Value> {
        for m in &self.members {
            if m.0 == member_name {
                return Ok(&m.1);
            }
        }
        bail!("member {} not found", member_name);
    }
}

pub trait TransitValue {
    fn get(value: &Value) -> Result<Self>
    where
        Self: Sized;
}

impl TransitValue for u8 {
    fn get(value: &Value) -> Result<Self> {
        if let Value::U8(val) = value {
            Ok(*val)
        } else {
            bail!("bad type cast u8 for value {:?}", value);
        }
    }
}

impl TransitValue for u32 {
    fn get(value: &Value) -> Result<Self> {
        match value {
            Value::U32(val) => Ok(*val),
            Value::U8(val) => Ok(Self::from(*val)),
            _ => {
                bail!("bad type cast u32 for value {:?}", value);
            }
        }
    }
}

impl TransitValue for u64 {
    fn get(value: &Value) -> Result<Self> {
        match value {
            Value::I64(val) => Ok(*val as Self),
            Value::U64(val) => Ok(*val),
            _ => {
                bail!("bad type cast u64 for value {:?}", value)
            }
        }
    }
}

impl TransitValue for i64 {
    #[allow(clippy::cast_possible_wrap)]
    fn get(value: &Value) -> Result<Self> {
        match value {
            Value::I64(val) => Ok(*val),
            Value::U64(val) => Ok(*val as Self),
            _ => {
                bail!("bad type cast i64 for value {:?}", value)
            }
        }
    }
}

impl TransitValue for f64 {
    fn get(value: &Value) -> Result<Self> {
        if let Value::F64(val) = value {
            Ok(*val)
        } else {
            bail!("bad type cast f64 for value {:?}", value);
        }
    }
}

impl TransitValue for Arc<String> {
    fn get(value: &Value) -> Result<Self> {
        if let Value::String(val) = value {
            Ok(val.clone())
        } else {
            bail!("bad type cast String for value {:?}", value);
        }
    }
}

impl TransitValue for Arc<Object> {
    fn get(value: &Value) -> Result<Self> {
        if let Value::Object(val) = value {
            Ok(val.clone())
        } else {
            bail!("bad type cast String for value {:?}", value);
        }
    }
}

#[derive(Debug, Clone)]
pub enum Value {
    String(Arc<String>),
    Object(Arc<Object>),
    U8(u8),
    U32(u32),
    U64(u64),
    I64(i64),
    F64(f64),
    None,
}

impl Value {
    pub fn as_str(&self) -> Option<&str> {
        if let Value::String(s) = &self {
            Some(s.as_str())
        } else {
            None
        }
    }
}

pub fn read_dependencies(udts: &[UserDefinedType], buffer: &[u8]) -> Result<HashMap<u64, Value>> {
    let mut hash = HashMap::new();
    let mut offset = 0;
    while offset < buffer.len() {
        let type_index = buffer[offset] as usize;
        if type_index >= udts.len() {
            bail!(
                "Invalid type index parsing transit dependencies: {}",
                type_index
            );
        }
        offset += 1;
        let udt = &udts[type_index];
        let object_size = match udt.size {
            0 => {
                //dynamic size
                unsafe {
                    let size_ptr = buffer.as_ptr().add(offset);
                    let obj_size = read_any::<u32>(size_ptr);
                    offset += std::mem::size_of::<u32>();
                    obj_size as usize
                }
            }
            static_size => static_size,
        };

        match udt.name.as_str() {
            "StaticString" => unsafe {
                let id_ptr = buffer.as_ptr().add(offset);
                let string_id = read_any::<u64>(id_ptr);
                let nb_utf8_bytes = object_size - std::mem::size_of::<usize>();
                let utf8_ptr = buffer.as_ptr().add(offset + std::mem::size_of::<usize>());
                let slice = std::ptr::slice_from_raw_parts(utf8_ptr, nb_utf8_bytes);
                let string = String::from(std::str::from_utf8(&*slice).unwrap());
                let insert_res = hash.insert(string_id, Value::String(Arc::new(string)));
                assert!(insert_res.is_none());
            },
            "StaticStringDependency" => unsafe {
                let mut cursor = offset;
                let string_id = read_any::<u64>(buffer.as_ptr().add(cursor));
                cursor += std::mem::size_of::<u64>();
                let string = parse_string(buffer, &mut cursor).with_context(|| "parsing string")?;
                let insert_res = hash.insert(string_id, Value::String(Arc::new(string)));
                assert!(insert_res.is_none());
            },

            _ => {
                if udt.size == 0 {
                    anyhow::bail!("invalid user-defined type {:?}", udt);
                }
                let instance = parse_pod_instance(udt, udts, &hash, offset, buffer);
                if let Value::Object(obj) = instance {
                    let insert_res = hash.insert(obj.get::<u64>("id")?, Value::Object(obj));
                    assert!(insert_res.is_none());
                }
            }
        }
        offset += object_size;
    }

    Ok(hash)
}

fn parse_log_string_event<S>(
    dependencies: &HashMap<u64, Value, S>,
    offset: usize,
    object_size: usize,
    buffer: &[u8],
) -> Vec<(String, Value)>
where
    S: BuildHasher,
{
    unsafe {
        let begin_obj_ptr = buffer.as_ptr().add(offset);
        let desc_id = read_any::<u64>(begin_obj_ptr);
        let time_ptr = buffer.as_ptr().add(offset + 8);
        let time = read_any::<i64>(time_ptr);
        let msg_offset = 8 * 2;
        let msg = <DynString as InProcSerialize>::read_value(
            buffer.as_ptr().add(offset + msg_offset),
            Some((object_size - msg_offset) as u32),
        );
        let mut desc: Value = Value::None;
        if let Some(found_desc) = dependencies.get(&desc_id) {
            desc = found_desc.clone();
        } else {
            log::warn!("desc member {} of LogStringEvent not found", desc_id);
        }
        vec![
            (String::from("time"), Value::I64(time)),
            (String::from("msg"), Value::String(Arc::new(msg.0))),
            (String::from("desc"), desc),
        ]
    }
}

fn parse_log_string_interop_event_v3<S>(
    udts: &[UserDefinedType],
    dependencies: &HashMap<u64, Value, S>,
    buffer: &[u8],
) -> Result<Vec<(String, Value)>>
where
    S: BuildHasher,
{
    if let Some(index) = udts.iter().position(|t| t.name == "StaticStringRef") {
        let string_ref_metadata = &udts[index];
        unsafe {
            let ptr = buffer.as_ptr();
            let time = read_any::<i64>(ptr);
            let mut cursor = std::mem::size_of::<i64>();
            let level = read_any::<u8>(ptr.add(cursor));
            cursor += 1;
            let target =
                parse_pod_instance(string_ref_metadata, udts, dependencies, cursor, buffer);
            cursor += string_ref_metadata.size;
            let msg = parse_string(buffer, &mut cursor)?;

            Ok(vec![
                (String::from("time"), Value::I64(time)),
                (String::from("level"), Value::U8(level)),
                (String::from("target"), target),
                (String::from("msg"), Value::String(Arc::new(msg))),
            ])
        }
    } else {
        bail!("Can't parse log string interop event with no metadata for StaticStringRef");
    }
}

fn parse_log_string_interop_event<S>(
    udts: &[UserDefinedType],
    dependencies: &HashMap<u64, Value, S>,
    offset: usize,
    object_size: usize,
    buffer: &[u8],
) -> Vec<(String, Value)>
where
    S: BuildHasher,
{
    if let Some(index) = udts.iter().position(|t| t.name == "StringId") {
        let stringid_metadata = &udts[index];
        unsafe {
            let buffer_ptr = buffer.as_ptr();
            let time = read_any::<i64>(buffer_ptr.add(offset));
            let level_offset = offset + std::mem::size_of::<i64>();
            let level = read_any::<u32>(buffer_ptr.add(level_offset));
            let target_offset = level_offset + std::mem::size_of::<u32>();
            let target =
                parse_pod_instance(stringid_metadata, udts, dependencies, target_offset, buffer);
            let message_offset = target_offset + stringid_metadata.size;
            let msg = <DynString as InProcSerialize>::read_value(
                buffer.as_ptr().add(message_offset),
                Some((object_size - (message_offset - offset)) as u32),
            );

            vec![
                (String::from("time"), Value::I64(time)),
                (String::from("level"), Value::U32(level)),
                (String::from("target"), target),
                (String::from("msg"), Value::String(Arc::new(msg.0))),
            ]
        }
    } else {
        log::warn!("Can't parse log string interop event with no metadata for StringId");
        vec![]
    }
}

fn parse_custom_instance<S>(
    udt: &UserDefinedType,
    udts: &[UserDefinedType],
    dependencies: &HashMap<u64, Value, S>,
    offset: usize,
    object_size: usize,
    buffer: &[u8],
) -> Value
where
    S: BuildHasher,
{
    let members = match udt.name.as_str() {
        // todo: move out of transit lib.
        // LogStringEvent belongs to the tracing lib
        // we need to inject the serialization logic of custom objects
        "LogStringEvent" => parse_log_string_event(dependencies, offset, object_size, buffer),
        "LogStringInteropEventV2" => {
            parse_log_string_interop_event(udts, dependencies, offset, object_size, buffer)
        }
        "LogStringInteropEventV3" => {
            let object_buffer = &buffer[offset..(offset + object_size)];
            match parse_log_string_interop_event_v3(udts, dependencies, object_buffer) {
                Ok(members) => members,
                Err(e) => {
                    log::warn!("Error parsing LogStringInteropEventV3: {:?}", e);
                    vec![]
                }
            }
        }
        other => {
            log::warn!("unknown custom object {}", other);
            Vec::new()
        }
    };
    Value::Object(Arc::new(Object {
        type_name: udt.name.clone(),
        members,
    }))
}

fn parse_pod_instance<S>(
    udt: &UserDefinedType,
    udts: &[UserDefinedType],
    dependencies: &HashMap<u64, Value, S>,
    offset: usize,
    buffer: &[u8],
) -> Value
where
    S: BuildHasher,
{
    let members: Vec<(String, Value)> = udt
        .members
        .iter()
        .map(|member_meta| {
            let name = member_meta.name.clone();
            let type_name = member_meta.type_name.clone();
            let value = if member_meta.is_reference {
                if member_meta.size < std::mem::size_of::<u64>() {
                    log::error!(
                        "member references have to be at least 8 bytes {:?}",
                        member_meta
                    );
                    return (name, Value::None);
                }
                let key =
                    unsafe { read_any::<u64>(buffer.as_ptr().add(offset + member_meta.offset)) };
                if let Some(v) = dependencies.get(&key) {
                    v.clone()
                } else {
                    log::warn!("dependency not found: {}", key);
                    Value::None
                }
            } else {
                match type_name.as_str() {
                    "u8" | "uint8" => {
                        assert_eq!(std::mem::size_of::<u8>(), member_meta.size);
                        unsafe {
                            Value::U8(read_any::<u8>(
                                buffer.as_ptr().add(offset + member_meta.offset),
                            ))
                        }
                    }
                    "u32" | "uint32" => {
                        assert_eq!(std::mem::size_of::<u32>(), member_meta.size);
                        unsafe {
                            Value::U32(read_any::<u32>(
                                buffer.as_ptr().add(offset + member_meta.offset),
                            ))
                        }
                    }
                    "u64" | "uint64" => {
                        assert_eq!(std::mem::size_of::<u64>(), member_meta.size);
                        unsafe {
                            Value::U64(read_any::<u64>(
                                buffer.as_ptr().add(offset + member_meta.offset),
                            ))
                        }
                    }
                    "i64" | "int64" => {
                        assert_eq!(std::mem::size_of::<i64>(), member_meta.size);
                        unsafe {
                            Value::I64(read_any::<i64>(
                                buffer.as_ptr().add(offset + member_meta.offset),
                            ))
                        }
                    }
                    "f64" => {
                        assert_eq!(std::mem::size_of::<f64>(), member_meta.size);
                        unsafe {
                            Value::F64(read_any::<f64>(
                                buffer.as_ptr().add(offset + member_meta.offset),
                            ))
                        }
                    }
                    non_intrinsic_member_type_name => {
                        if let Some(index) = udts
                            .iter()
                            .position(|t| t.name == non_intrinsic_member_type_name)
                        {
                            let member_udt = &udts[index];
                            parse_pod_instance(
                                member_udt,
                                udts,
                                dependencies,
                                offset + member_meta.offset,
                                buffer,
                            )
                        } else {
                            log::warn!("unknown member type {}", non_intrinsic_member_type_name);
                            Value::None
                        }
                    }
                }
            };
            (name, value)
        })
        .collect();

    if udt.is_reference {
        // reference objects need a member called 'id' which is the key to the dependency
        if let Some(id_index) = members.iter().position(|m| m.0 == "id") {
            return members[id_index].1.clone();
        }
        log::error!("reference object has no 'id' member");
    }

    Value::Object(Arc::new(Object {
        type_name: udt.name.clone(),
        members,
    }))
}

// parse_object_buffer calls fun for each object in the buffer until fun returns
// `false`
pub fn parse_object_buffer<F, S>(
    dependencies: &HashMap<u64, Value, S>,
    udts: &[UserDefinedType],
    buffer: &[u8],
    mut fun: F,
) -> Result<bool>
where
    F: FnMut(Value) -> Result<bool>,
    S: BuildHasher,
{
    let mut offset = 0;
    while offset < buffer.len() {
        let type_index = buffer[offset] as usize;
        if type_index >= udts.len() {
            bail!("Invalid type index parsing transit objects: {}", type_index);
        }
        offset += 1;
        let udt = &udts[type_index];
        let (object_size, is_size_dynamic) = match udt.size {
            0 => {
                //dynamic size
                unsafe {
                    let size_ptr = buffer.as_ptr().add(offset);
                    let obj_size = read_any::<u32>(size_ptr);
                    offset += std::mem::size_of::<u32>();
                    (obj_size as usize, true)
                }
            }
            static_size => (static_size, false),
        };
        let instance = if is_size_dynamic {
            parse_custom_instance(udt, udts, dependencies, offset, object_size, buffer)
        } else {
            parse_pod_instance(udt, udts, dependencies, offset, buffer)
        };
        if !fun(instance)? {
            return Ok(false);
        }
        offset += object_size;
    }
    Ok(true)
}