fediglam/src/main/api.zig

const std = @import("std");
const util = @import("util");

const db = @import("./db.zig");

pub const models = @import("./models.zig");
pub const DateTime = util.DateTime;
pub const Uuid = util.Uuid;

const PwHash = std.crypto.pwhash.scrypt;
const pw_hash_params = PwHash.Params.interactive;
const pw_hash_encoding = .phc;
const pw_hash_buf_size = 128;

const token_len = 20;
const token_str_len = std.base64.standard.count(token_len);

// Frees an api struct and its fields allocated from alloc
pub fn free(alloc: std.mem.Allocator, val: anytype) void {
    switch (@typeInfo(@TypeOf(val))) {
        .Pointer => |ptr_info| switch (ptr_info.size) {
            .One => {
                free(alloc, val.*);
                alloc.destroy(val);
            },
            .Slice => {
                for (val) |elem| free(alloc, elem);
                alloc.free(val);
            },
            else => unreachable,
        },
        .Struct => inline for (std.meta.fields(@TypeOf(val))) |f| free(alloc, @field(val, f.name)),
        .Array => for (val) |elem| free(alloc, elem),
        .Optional => if (val) |opt| free(alloc, opt),
        .Bool, .Int, .Float, .Enum => {},
        else => unreachable,
    }
}

pub fn CreateInfo(comptime T: type) type {
    const t_fields = std.meta.fields(T);
    var fields: [t_fields.len - 1]std.builtin.Type.StructField = undefined;
    var count = 0;

    inline for (t_fields) |f| {
        if (std.mem.eql(u8, f.name, "id")) continue;

        fields[count] = f;
        count += 1;
    }

    return @Type(.{ .Struct = .{
        .layout = .Auto,
        .fields = &fields,
        .decls = &[0]std.builtin.Type.Declaration{},
        .is_tuple = false,
    } });
}

fn reify(comptime T: type, id: Uuid, val: CreateInfo(T)) T {
    var result: T = undefined;
    result.id = id;
    inline for (std.meta.fields(CreateInfo(T))) |f| {
        @field(result, f.name) = @field(val, f.name);
    }
    return result;
}

pub const ApiContext = struct {
    user_context: struct {
        user: models.LocalUser,
    },

    alloc: std.mem.Allocator,
};

pub const NoteCreate = struct {
    content: []const u8,
};

pub const RegistrationInfo = struct {
    username: []const u8,
    password: []const u8,
    email: ?[]const u8,
};

pub const ApiServer = struct {
    prng: std.rand.DefaultPrng,
    db: db.Database,
    internal_alloc: std.mem.Allocator,

    pub fn init(alloc: std.mem.Allocator) !ApiServer {
        return ApiServer{
            .prng = std.rand.DefaultPrng.init(@bitCast(u64, std.time.milliTimestamp())),
            .db = try db.Database.init(),
            .internal_alloc = alloc,
        };
    }

    pub fn makeApiContext(self: *ApiServer, token: []const u8, alloc: std.mem.Allocator) !ApiContext {
        if (token.len == 0) return error.InvalidToken;

        const username = token;

        const user = (try self.db.getBy(models.LocalUser, .username, username, alloc)) orelse return error.InvalidToken;

        return ApiContext{
            .user_context = .{
                .user = user,
            },

            .alloc = alloc,
        };
    }

    pub fn createNoteUser(self: *ApiServer, info: NoteCreate, ctx: ApiContext) !models.Note {
        const id = Uuid.randV4(self.prng.random());
        // TODO: check for dupes

        const note = models.Note{
            .id = id,
            .author_id = ctx.user_context.user.actor_id.?,
            .content = info.content,

            .created_at = DateTime.now(),
        };
        try self.db.insert(models.Note, note);

        return note;
    }

    pub fn register(self: *ApiServer, info: RegistrationInfo) !models.Actor {
        const actor_id = Uuid.randV4(self.prng.random());
        const user_id = Uuid.randV4(self.prng.random());
        // TODO: transaction?

        if (try self.db.existsWhereEq(models.LocalUser, .username, info.username)) {
            return error.UsernameUnavailable;
        }

        if (try self.db.existsWhereEq(models.Actor, .handle, info.username)) {
            return error.InconsistentDb;
        }

        // use internal alloc because necessary buffer is *big*
        var buf: [pw_hash_buf_size]u8 = undefined;
        const hash = try PwHash.strHash(info.password, .{ .allocator = self.internal_alloc, .params = pw_hash_params, .encoding = pw_hash_encoding }, &buf);
        const now = DateTime.now();

        const actor = models.Actor{
            .id = actor_id,
            .handle = info.username,
            .created_at = now,
        };
        const user = models.LocalUser{
            .id = user_id,
            .actor_id = actor_id,
            .username = info.username,
            .email = info.email,
            .hashed_password = hash,
            .password_changed_at = now,
            .created_at = now,
        };
        try self.db.insert(models.Actor, actor);
        try self.db.insert(models.LocalUser, user);

        // TODO: return token instead
        return actor;
    }

    const LoginResult = struct {
        user_id: Uuid,
        token: [token_len]u8,
        issued_at: DateTime,
    };
    pub fn login(self: *ApiServer, username: []const u8, password: []const u8, alloc: std.mem.Allocator) !LoginResult {
        // TODO: This gives away the existence of a user through a timing side channel. is that acceptable?
        const user_info = (try self.db.getBy(models.LocalUser, .username, username, alloc)) orelse return error.InvalidLogin;
        defer free(alloc, user_info);

        const Hash = std.crypto.pwhash.scrypt;
        Hash.strVerify(user_info.hashed_password, password, .{ .allocator = alloc }) catch |err| switch (err) {
            error.PasswordVerificationFailed => return error.InvalidLogin,
            else => return err,
        };

        const token = try self.createToken(user_info);

        return LoginResult{
            .user_id = user_info.id,
            .token = token.value,
            .issued_at = token.info.issued_at,
        };
        //return (try self.db.getBy(models.Actor, .id, user_info.actor_id.?, alloc)) orelse unreachable;
    }

    const TokenResult = struct {
        info: models.Token,
        value: [token_len]u8,
    };
    fn createToken(self: *ApiServer, user: models.LocalUser) !TokenResult {
        var token: [token_len]u8 = undefined;
        std.crypto.random.bytes(&token);

        var hash: [models.Token.hash_len]u8 = undefined;
        models.Token.HashFn.hash(&token, &hash, .{});

        const db_token = models.Token{
            .id = Uuid.randV4(self.prng.random()),
            .hash = .{ .data = hash },
            .user_id = user.id,
            .issued_at = DateTime.now(),
        };

        try self.db.insert(models.Token, db_token);
        return TokenResult{
            .info = db_token,
            .value = token,
        };
    }

    pub fn getNote(self: *ApiServer, id: Uuid, alloc: std.mem.Allocator) !?models.Note {
        return self.db.getBy(models.Note, .id, id, alloc);
    }

    pub fn getActor(self: *ApiServer, id: Uuid, alloc: std.mem.Allocator) !?models.Actor {
        return self.db.getBy(models.Actor, .id, id, alloc);
    }

    pub fn getActorByHandle(self: *ApiServer, handle: []const u8, alloc: std.mem.Allocator) !?models.Actor {
        return self.db.getBy(models.Actor, .handle, handle, alloc);
    }

    pub fn react(self: *ApiServer, note_id: Uuid, ctx: ApiContext) !void {
        const id = Uuid.randV4(self.prng.random());
        try self.db.insert(models.Reaction, .{ .id = id, .note_id = note_id, .reactor_id = ctx.user_context.user.actor_id.?, .created_at = DateTime.now() });
    }

    pub fn listReacts(self: *ApiServer, note_id: Uuid, ctx: ApiContext) ![]models.Reaction {
        return try self.db.getWhereEq(models.Reaction, .note_id, note_id, ctx.alloc);
    }
};