From: Clifford Wolf Date: Fri, 22 Aug 2014 12:22:09 +0000 (+0200) Subject: Archibald Rust and Clifford Wolf: ffi-based dpi_call() X-Git-Tag: yosys-0.4~219 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=74af3a2b7086acad45d15b590a0d23572e8c8734;p=yosys.git Archibald Rust and Clifford Wolf: ffi-based dpi_call() --- diff --git a/Makefile b/Makefile index e74175394..8d7f2f8dd 100644 --- a/Makefile +++ b/Makefile @@ -27,7 +27,7 @@ all: top-all CXXFLAGS = -Wall -Wextra -ggdb -I"$(shell pwd)" -MD -DYOSYS_SRC='"$(shell pwd)"' -D_YOSYS_ -fPIC -I${DESTDIR}/include LDFLAGS = -L${DESTDIR}/lib -LDLIBS = -lstdc++ -lreadline -lm -ldl +LDLIBS = -lstdc++ -lreadline -lm -lffi -ldl QMAKE = qmake-qt4 SED = sed diff --git a/README b/README index a0e67e8a4..5c3286c20 100644 --- a/README +++ b/README @@ -57,8 +57,8 @@ Icarus Verilog. For example on Ubuntu Linux 12.04 LTS the following commands will install all prerequisites for building yosys: $ yosys_deps="git g++ clang make bison flex libreadline-dev - tcl8.5-dev zlib1g-dev libqt4-dev mercurial - iverilog graphviz" + tcl8.5-dev zlib1g-dev libqt4-dev libffi-dev + mercurial iverilog graphviz" $ sudo apt-get install $yosys_deps There are also pre-compiled packages for Yosys on Ubuntu. Visit the Yosys diff --git a/frontends/ast/dpicall.cc b/frontends/ast/dpicall.cc index 965645cde..b79bd59eb 100644 --- a/frontends/ast/dpicall.cc +++ b/frontends/ast/dpicall.cc @@ -17,26 +17,110 @@ * */ +#include +#include #include "ast.h" +typedef void (*ffi_fptr) (); + +static ffi_fptr resolve_fn (std::string symbol_name) +{ + if (symbol_name.find(':') != std::string::npos) + { + int pos = symbol_name.find(':'); + std::string plugin_name = symbol_name.substr(0, pos); + std::string real_symbol_name = symbol_name.substr(pos+1); + + while (loaded_plugin_aliases.count(plugin_name)) + plugin_name = loaded_plugin_aliases.at(plugin_name); + + if (loaded_plugins.count(plugin_name) == 0) + log_error("unable to resolve '%s': can't find plugin `%s'\n", symbol_name.c_str(), plugin_name.c_str()); + + void *symbol = dlsym(loaded_plugins.at(plugin_name), real_symbol_name.c_str()); + + if (symbol == nullptr) + log_error("unable to resolve '%s': can't find symbol `%s' in plugin `%s'\n", + symbol_name.c_str(), real_symbol_name.c_str(), plugin_name.c_str()); + + return (ffi_fptr) symbol; + } + + for (auto &it : loaded_plugins) { + void *symbol = dlsym(it.second, symbol_name.c_str()); + if (symbol != nullptr) + return (ffi_fptr) symbol; + } + + void *symbol = dlsym(RTLD_DEFAULT, symbol_name.c_str()); + if (symbol != nullptr) + return (ffi_fptr) symbol; + + log_error("unable to resolve '%s'.\n", symbol_name.c_str()); +} + AST::AstNode *AST::dpi_call(const std::string &rtype, const std::string &fname, const std::vector &argtypes, const std::vector &args) { AST::AstNode *newNode = nullptr; + union { double f64; float f32; int32_t i32; } value_store [args.size() + 1]; + ffi_type *types [args.size() + 1]; + void *values [args.size() + 1]; + ffi_cif cif; + int status; log("Calling DPI function `%s' and returning `%s':\n", fname.c_str(), rtype.c_str()); log_assert(SIZE(args) == SIZE(argtypes)); - for (int i = 0; i < SIZE(args); i++) - if (argtypes[i] == "real" || argtypes[i] == "shortreal") + for (int i = 0; i < SIZE(args); i++) { + if (argtypes[i] == "real") { + log(" arg %d (%s): %f\n", i, argtypes[i].c_str(), args[i]->asReal(args[i]->is_signed)); + value_store[i].f64 = args[i]->asReal(args[i]->is_signed); + values[i] = &value_store[i].f64; + types[i] = &ffi_type_double; + } else if (argtypes[i] == "shortreal") { log(" arg %d (%s): %f\n", i, argtypes[i].c_str(), args[i]->asReal(args[i]->is_signed)); - else + value_store[i].f32 = args[i]->asReal(args[i]->is_signed); + values[i] = &value_store[i].f32; + types[i] = &ffi_type_double; + } else if (argtypes[i] == "integer") { log(" arg %d (%s): %lld\n", i, argtypes[i].c_str(), (long long)args[i]->asInt(args[i]->is_signed)); + value_store[i].i32 = args[i]->asInt(args[i]->is_signed); + values[i] = &value_store[i].i32; + types[i] = &ffi_type_sint32; + } else { + log_error("invalid argtype '%s' for argument %d.\n", argtypes[i].c_str(), i); + } + } + + if (rtype == "integer") { + types[args.size()] = &ffi_type_slong; + values[args.size()] = &value_store[args.size()].i32; + } else if (rtype == "shortreal") { + types[args.size()] = &ffi_type_float; + values[args.size()] = &value_store[args.size()].f32; + } else if (rtype == "real") { + types[args.size()] = &ffi_type_double; + values[args.size()] = &value_store[args.size()].f64; + } else { + log_error("invalid rtype '%s'.\n", rtype.c_str()); + } + + if ((status = ffi_prep_cif(&cif, FFI_DEFAULT_ABI, args.size(), types[args.size()], types)) != FFI_OK) + log_error("ffi_prep_cif failed: status %d.\n", status); - if (rtype == "real" || rtype == "shortreal") { + ffi_call(&cif, resolve_fn(fname.c_str()), values[args.size()], values); + + if (rtype == "real") { + newNode = new AstNode(AST_REALVALUE); + newNode->realvalue = value_store[args.size()].f64; + log(" return realvalue: %g\n", newNode->asReal(true)); + } else if (rtype == "shortreal") { newNode = new AstNode(AST_REALVALUE); - newNode->realvalue = 1234; + newNode->realvalue = value_store[args.size()].f32; + log(" return realvalue: %g\n", newNode->asReal(true)); } else { - newNode = AstNode::mkconst_int(1234, false); + newNode = AstNode::mkconst_int(value_store[args.size()].i32, false); + log(" return integer: %lld\n", (long long)newNode->asInt(true)); } return newNode;