X-Git-Url: http://xvm.mit.edu/gitweb/invirt/third/libt4.git/blobdiff_plain/4e881433f37417ccbda89c09ffdf936855d462d4..f0dcb6b97d6d40f67698d1f71ac26970f1776f82:/rpc/marshall.h diff --git a/rpc/marshall.h b/rpc/marshall.h index 6e0c94a..7b716e2 100644 --- a/rpc/marshall.h +++ b/rpc/marshall.h @@ -4,9 +4,6 @@ #include "types.h" #include "rpc_protocol.h" -class marshall; -class unmarshall; - // // Marshall and unmarshall objects // @@ -18,7 +15,7 @@ class marshall { public: template - marshall(const Args&... args) { + marshall(const Args & ... args) { (void)pass{(*this << args)...}; } @@ -35,7 +32,7 @@ class marshall { inline string content() const { return buf_.substr(rpc_protocol::RPC_HEADER_SZ,index_-rpc_protocol::RPC_HEADER_SZ); } // letting S be a defaulted template parameter forces the compiler to - // delay looking up operator<<(marshall&, rpc_sz_t) until we define it + // delay looking up operator<<(marshall &, rpc_sz_t) until we define it // (i.e. we define an operator for marshalling uint32_t) template inline void pack_header(const T & h) { @@ -54,11 +51,13 @@ class unmarshall { bool ok_ = false; public: - unmarshall(const string &s, bool has_header) + template + unmarshall(const string & s, bool has_header, Args && ... args) : buf_(s),index_(rpc_protocol::RPC_HEADER_SZ) { if (!has_header) buf_.insert(0, rpc_protocol::RPC_HEADER_SZ, 0); ok_ = (buf_.size() >= rpc_protocol::RPC_HEADER_SZ); + (void)pass{(*this >> args)...}; } bool ok() const { return ok_; } @@ -89,8 +88,8 @@ class unmarshall { // #define MARSHALL_RAW_NETWORK_ORDER_AS(_c_, _d_) \ -inline marshall & operator<<(marshall &m, _c_ x) { _d_ y = hton((_d_)x); m.rawbytes(&y, sizeof(_d_)); return m; } \ -inline unmarshall & operator>>(unmarshall &u, _c_ &x) { _d_ y; u.rawbytes(&y, sizeof(_d_)); x = (_c_)ntoh(y); return u; } +inline marshall & operator<<(marshall & m, _c_ x) { _d_ y = hton((_d_)x); m.rawbytes(&y, sizeof(_d_)); return m; } \ +inline unmarshall & operator>>(unmarshall & u, _c_ & x) { _d_ y; u.rawbytes(&y, sizeof(_d_)); x = (_c_)ntoh(y); return u; } #define MARSHALL_RAW_NETWORK_ORDER(_c_) MARSHALL_RAW_NETWORK_ORDER_AS(_c_, _c_) @@ -133,13 +132,13 @@ operator<<(marshall & m, tuple && t) { } template inline unmarshall & -tuple_unmarshall_imp(unmarshall & u, tuple t, tuple_indices) { +tuple_unmarshall_imp(unmarshall & u, tuple t, tuple_indices) { (void)pass{(u >> get(t))...}; return u; } template unmarshall & -operator>>(unmarshall & u, tuple && t) { +operator>>(unmarshall & u, tuple && t) { using Indices = typename make_tuple_indices::type; return tuple_unmarshall_imp(u, t, Indices()); } @@ -150,8 +149,8 @@ operator>>(unmarshall & u, tuple && t) { // Implements struct marshalling via tuple marshalling of members. #define MARSHALLABLE_STRUCT(_c_) \ -inline unmarshall & operator>>(unmarshall &u, _c_ &a) { return u >> a._tuple_(); } \ -inline marshall & operator<<(marshall &m, const _c_ a) { return m << a._tuple_(); } +inline unmarshall & operator>>(unmarshall & u, _c_ & a) { return u >> a._tuple_(); } \ +inline marshall & operator<<(marshall & m, const _c_ a) { return m << a._tuple_(); } // our first two marshallable structs... MARSHALLABLE_STRUCT(rpc_protocol::request_header) @@ -164,9 +163,9 @@ MARSHALLABLE_STRUCT(rpc_protocol::reply_header) // this overload is visible for type A only if A::cbegin and A::cend exist template inline typename enable_if::value, marshall>::type & -operator<<(marshall &m, const A &x) { +operator<<(marshall & m, const A & x) { m << (unsigned int)x.size(); - for (const auto &a : x) + for (const auto & a : x) m << a; return m; } @@ -174,7 +173,7 @@ operator<<(marshall &m, const A &x) { // visible for type A if A::emplace_back(a) makes sense template inline typename enable_if::value, unmarshall>::type & -operator>>(unmarshall &u, A &x) { +operator>>(unmarshall & u, A & x) { unsigned n = u._grab(); x.clear(); while (n--) @@ -184,18 +183,18 @@ operator>>(unmarshall &u, A &x) { // std::pair template inline marshall & -operator<<(marshall &m, const pair &d) { +operator<<(marshall & m, const pair & d) { return m << d.first << d.second; } template inline unmarshall & -operator>>(unmarshall &u, pair &d) { +operator>>(unmarshall & u, pair & d) { return u >> d.first >> d.second; } // std::map template inline unmarshall & -operator>>(unmarshall &u, map &x) { +operator>>(unmarshall & u, map & x) { unsigned n = u._grab(); x.clear(); while (n--) @@ -204,13 +203,13 @@ operator>>(unmarshall &u, map &x) { } // std::string -inline marshall & operator<<(marshall &m, const string &s) { +inline marshall & operator<<(marshall & m, const string & s) { m << (uint32_t)s.size(); m.rawbytes(s.data(), s.size()); return m; } -inline unmarshall & operator>>(unmarshall &u, string &s) { +inline unmarshall & operator>>(unmarshall & u, string & s) { uint32_t sz = u._grab(); if (u.ok()) { s.resize(sz); @@ -224,12 +223,12 @@ inline unmarshall & operator>>(unmarshall &u, string &s) { // template typename enable_if::value, marshall>::type & -operator<<(marshall &m, E e) { +operator<<(marshall & m, E e) { return m << from_enum(e); } template typename enable_if::value, unmarshall>::type & -operator>>(unmarshall &u, E &e) { +operator>>(unmarshall & u, E & e) { e = to_enum(u._grab>()); return u; } @@ -238,11 +237,11 @@ operator>>(unmarshall &u, E &e) { // Recursive marshalling // -inline marshall & operator<<(marshall &m, marshall &n) { +inline marshall & operator<<(marshall & m, marshall & n) { return m << n.content(); } -inline unmarshall & operator>>(unmarshall &u, unmarshall &v) { +inline unmarshall & operator>>(unmarshall & u, unmarshall & v) { v = unmarshall(u._grab(), false); return u; }