zeek/src/script_opt/CPP/Inits.cc

// See the file "COPYING" in the main distribution directory for copyright.

#include "zeek/module_util.h"
#include "zeek/script_opt/CPP/Compile.h"
#include "zeek/script_opt/IDOptInfo.h"
#include "zeek/script_opt/ProfileFunc.h"

namespace zeek::detail {

using namespace std;

std::shared_ptr<CPP_InitInfo> CPPCompile::RegisterInitExpr(const ExprPtr& ep) {
    auto ename = InitExprName(ep);

    auto ii = init_infos.find(ename);
    if ( ii != init_infos.end() )
        return ii->second;

    auto wrapper_cl = string("wrapper_") + ename + "_cl";

    auto gi = make_shared<CallExprInitInfo>(this, ep, ename, wrapper_cl);
    call_exprs_info->AddInstance(gi);
    init_infos[ename] = gi;

    return gi;
}

void CPPCompile::GenInitExpr(std::shared_ptr<CallExprInitInfo> ce_init) {
    NL();

    const auto& e = ce_init->GetExpr();
    const auto& t = e->GetType();
    const auto& ename = ce_init->Name();
    const auto& wc = ce_init->WrapperClass();

    // First, create a CPPFunc that we can compile to compute 'e'.
    auto name = string("wrapper_") + ename;

    // Forward declaration of the function that computes 'e'.
    Emit("static %s %s(Frame* f__CPP);", FullTypeName(t), name);

    // Create the Func subclass that can be used in a CallExpr to
    // evaluate 'e'.
    Emit("class %s final : public CPPFunc", wc);
    StartBlock();

    Emit("public:");
    Emit("%s() : CPPFunc(\"%s\", %s)", wc, name, e->IsPure() ? "true" : "false");

    StartBlock();
    Emit(
        "type = make_intrusive<FuncType>(make_intrusive<RecordType>(new type_decl_list()), %s, "
        "FUNC_FLAVOR_FUNCTION);",
        GenTypeName(t));

    EndBlock();

    Emit("ValPtr Invoke(zeek::Args* args, Frame* parent) const override");
    StartBlock();

    if ( IsNativeType(t) )
        GenInvokeBody(name, t, "parent");
    else
        Emit("return %s(parent);", name);

    EndBlock();
    EndBlock(true);

    // Now the implementation of computing 'e'.
    Emit("static %s %s(Frame* f__CPP)", FullTypeName(t), name);
    StartBlock();

    Emit("return %s;", GenExpr(e, GEN_NATIVE));
    EndBlock();

    Emit("CallExprPtr %s;", ename);
}

bool CPPCompile::IsSimpleInitExpr(const ExprPtr& e) {
    switch ( e->Tag() ) {
        case EXPR_CONST:
        case EXPR_NAME: return true;

        case EXPR_RECORD_COERCE: { // look for coercion of empty record
            auto op = e->GetOp1();

            if ( op->Tag() != EXPR_RECORD_CONSTRUCTOR )
                return false;

            auto rc = static_cast<const RecordConstructorExpr*>(op.get());
            const auto& exprs = rc->Op()->AsListExpr()->Exprs();

            return exprs.length() == 0;
        }

        default: return false;
    }
}

string CPPCompile::InitExprName(const ExprPtr& e) { return init_exprs.KeyName(e); }

void CPPCompile::InitializeFieldMappings() {
    Emit("std::vector<CPP_FieldMapping> CPP__field_mappings__ = ");

    StartBlock();

    for ( const auto& mapping : field_decls ) {
        auto rt_arg = Fmt(mapping.first);
        auto td = mapping.second;
        auto type_arg = Fmt(TypeOffset(td->type));
        auto attrs_arg = Fmt(AttributesOffset(td->attrs));

        Emit("CPP_FieldMapping(%s, \"%s\", %s, %s),", rt_arg, td->id, type_arg, attrs_arg);
    }

    EndBlock(true);
}

void CPPCompile::InitializeEnumMappings() {
    Emit("std::vector<CPP_EnumMapping> CPP__enum_mappings__ = ");

    StartBlock();

    for ( const auto& mapping : enum_names )
        Emit("CPP_EnumMapping(%s, \"%s\"),", Fmt(mapping.first), mapping.second);

    EndBlock(true);
}

void CPPCompile::InitializeBiFs() {
    Emit("std::vector<CPP_LookupBiF> CPP__BiF_lookups__ = ");

    StartBlock();

    for ( const auto& b : BiFs )
        Emit("CPP_LookupBiF(%s, \"%s\"),", b.first, b.second);

    EndBlock(true);
}

void CPPCompile::InitializeStrings() {
    Emit("std::vector<const char*> CPP__Strings =");

    StartBlock();

    for ( const auto& s : ordered_tracked_strings )
        Emit("\"%s\",", s);

    EndBlock(true);
}

void CPPCompile::InitializeHashes() {
    Emit("std::vector<p_hash_type> CPP__Hashes =");

    StartBlock();

    for ( const auto& h : ordered_tracked_hashes )
        Emit(Fmt(h) + ",");

    EndBlock(true);
}

void CPPCompile::InitializeConsts() {
    Emit("std::vector<CPP_ValElem> CPP__ConstVals =");

    StartBlock();

    for ( const auto& c : consts )
        Emit("CPP_ValElem(%s, %s),", TypeTagName(c.first), Fmt(c.second));

    EndBlock(true);
}

void CPPCompile::InitializeGlobals() {
    Emit("static void init_globals__CPP()");
    StartBlock();

    Emit("Frame* f__CPP = nullptr;");
    NL();

    for ( const auto& ginit : IDOptInfo::GetGlobalInitExprs() ) {
        auto g = ginit.Id();
        if ( pfs->Globals().count(g) == 0 )
            continue;

        auto ic = ginit.IC();
        auto& init = ginit.Init();

        if ( ic == INIT_NONE )
            Emit(GenExpr(init, GEN_NATIVE, true) + ";");

        else {
            // This branch occurs for += or -= initializations that
            // use associated functions.
            string ics;
            if ( ic == INIT_EXTRA )
                ics = "INIT_EXTRA";
            else if ( ic == INIT_REMOVE )
                ics = "INIT_REMOVE";
            else
                reporter->FatalError("bad initialization class in CPPCompile::InitializeGlobals()");

            Emit("%s->SetValue(%s, %s);", globals[g->Name()], GenExpr(init, GEN_NATIVE, true), ics);
        }

        const auto& attrs = g->GetAttrs();
        if ( attrs ) {
            string attr_tags;
            string attr_vals;
            BuildAttrs(attrs, attr_tags, attr_vals);
            Emit("assign_attrs__CPP(%s, %s, %s);", globals[g->Name()], attr_tags, attr_vals);
        }
    }

    EndBlock();
}

void CPPCompile::GenInitHook() {
    NL();

    Emit("int hook_in_init()");

    StartBlock();

    Emit("CPP_init_funcs.push_back(init__CPP);");

    if ( standalone )
        GenLoad();

    Emit("return 0;");
    EndBlock();

    // Trigger the activation of the hook at run-time.
    NL();
    Emit("static int dummy = hook_in_init();\n");
}

void CPPCompile::GenStandaloneActivation() {
    NL();

    Emit("void standalone_activation__CPP()");
    StartBlock();

    Emit("finish_init__CPP();");
    NL();

    // For events and hooks, we need to add each compiled body *unless*
    // it's already there (which could be the case if the standalone
    // code wasn't run standalone but instead with the original scripts).
    // For events, we also register them in order to activate the
    // associated scripts.

    // First, build up a list of per-hook/event handler bodies.
    unordered_map<const Func*, vector<p_hash_type>> func_bodies;

    for ( const auto& func : funcs ) {
        if ( func.ShouldSkip() )
            continue;

        auto f = func.Func();
        auto fname = BodyName(func);
        auto bname = Canonicalize(fname.c_str()) + "_zf";

        if ( compiled_funcs.count(bname) == 0 )
            // We didn't wind up compiling it.
            continue;

        auto bh = body_hashes.find(bname);
        ASSERT(bh != body_hashes.end());
        func_bodies[f].push_back(bh->second);
    }

    for ( auto& fb : func_bodies ) {
        string hashes;
        for ( auto h : fb.second ) {
            if ( hashes.size() > 0 )
                hashes += ", ";

            hashes += Fmt(h);
        }

        hashes = "{" + hashes + "}";

        auto f = fb.first;
        auto fn = f->Name();
        const auto& ft = f->GetType();

        auto var = extract_var_name(fn);
        auto mod = extract_module_name(fn);

        auto fid = lookup_ID(var.c_str(), mod.c_str(), false, true, false);
        if ( ! fid )
            reporter->InternalError("can't find identifier %s", fn);

        auto exported = fid->IsExport() ? "true" : "false";

        Emit("activate_bodies__CPP(\"%s\", \"%s\", %s, %s, %s);", var, mod, exported, GenTypeName(ft), hashes);
    }

    EndBlock();

    NL();
    Emit("void standalone_init__CPP()");
    StartBlock();
    Emit("init__CPP();");
    Emit("standalone_activation__CPP();");
    Emit("standalone_finalizations.push_back(load_BiFs__CPP);");
    EndBlock();
}

void CPPCompile::GenLoad() {
    Emit("register_scripts__CPP(%s, standalone_init__CPP);", Fmt(total_hash));
    printf("global init_CPP_%llu = load_CPP(%llu);\n", total_hash, total_hash);
}

} // namespace zeek::detail