/* * nextpnr -- Next Generation Place and Route * * Copyright (C) 2018 Clifford Wolf * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * */ #ifdef MAIN_EXECUTABLE #include #include "bitstream.h" #include "command.h" #include "design_utils.h" #include "log.h" #include "timing.h" #include "util.h" USING_NEXTPNR_NAMESPACE class ECP5CommandHandler : public CommandHandler { public: ECP5CommandHandler(int argc, char **argv); virtual ~ECP5CommandHandler(){}; std::unique_ptr createContext(std::unordered_map &values) override; void setupArchContext(Context *ctx) override{}; void customAfterLoad(Context *ctx) override; void validate() override; void customBitstream(Context *ctx) override; protected: po::options_description getArchOptions() override; }; ECP5CommandHandler::ECP5CommandHandler(int argc, char **argv) : CommandHandler(argc, argv) {} po::options_description ECP5CommandHandler::getArchOptions() { po::options_description specific("Architecture specific options"); specific.add_options()("25k", "set device type to LFE5U-25F"); specific.add_options()("45k", "set device type to LFE5U-45F"); specific.add_options()("85k", "set device type to LFE5U-85F"); specific.add_options()("um-25k", "set device type to LFE5UM-25F"); specific.add_options()("um-45k", "set device type to LFE5UM-45F"); specific.add_options()("um-85k", "set device type to LFE5UM-85F"); specific.add_options()("um5g-25k", "set device type to LFE5UM5G-25F"); specific.add_options()("um5g-45k", "set device type to LFE5UM5G-45F"); specific.add_options()("um5g-85k", "set device type to LFE5UM5G-85F"); specific.add_options()("package", po::value(), "select device package (defaults to CABGA381)"); specific.add_options()("speed", po::value(), "select device speedgrade (6, 7 or 8)"); specific.add_options()("basecfg", po::value(), "base chip configuration in Trellis text format (deprecated)"); specific.add_options()("override-basecfg", po::value(), "base chip configuration in Trellis text format"); specific.add_options()("textcfg", po::value(), "textual configuration in Trellis format to write"); specific.add_options()("lpf", po::value>(), "LPF pin constraint file(s)"); specific.add_options()("lpf-allow-unconstrained", "don't require LPF file(s) to constrain all IO"); return specific; } void ECP5CommandHandler::validate() { if ((vm.count("25k") + vm.count("45k") + vm.count("85k")) > 1) log_error("Only one device type can be set\n"); } void ECP5CommandHandler::customBitstream(Context *ctx) { std::string basecfg; if (vm.count("basecfg")) { log_warning("--basecfg is deprecated.\nIf you are using a default baseconfig (from prjtrellis/misc/basecfgs), " "these are now embedded in nextpnr - please remove --basecfg.\nIf you are using a non-standard " "baseconfig in a special application, switch to using --override-basecfg.\n"); basecfg = vm["basecfg"].as(); } else if (vm.count("override-basecfg")) { basecfg = vm["basecfg"].as(); } std::string textcfg; if (vm.count("textcfg")) textcfg = vm["textcfg"].as(); write_bitstream(ctx, basecfg, textcfg); } static std::string speedString(ArchArgs::SpeedGrade speed) { switch (speed) { case ArchArgs::SPEED_6: return "6"; case ArchArgs::SPEED_7: return "7"; case ArchArgs::SPEED_8: return "8"; case ArchArgs::SPEED_8_5G: return "8"; } return ""; } std::unique_ptr ECP5CommandHandler::createContext(std::unordered_map &values) { ArchArgs chipArgs; chipArgs.type = ArchArgs::NONE; if (vm.count("25k")) chipArgs.type = ArchArgs::LFE5U_25F; if (vm.count("45k")) chipArgs.type = ArchArgs::LFE5U_45F; if (vm.count("85k")) chipArgs.type = ArchArgs::LFE5U_85F; if (vm.count("um-25k")) chipArgs.type = ArchArgs::LFE5UM_25F; if (vm.count("um-45k")) chipArgs.type = ArchArgs::LFE5UM_45F; if (vm.count("um-85k")) chipArgs.type = ArchArgs::LFE5UM_85F; if (vm.count("um5g-25k")) chipArgs.type = ArchArgs::LFE5UM5G_25F; if (vm.count("um5g-45k")) chipArgs.type = ArchArgs::LFE5UM5G_45F; if (vm.count("um5g-85k")) chipArgs.type = ArchArgs::LFE5UM5G_85F; if (vm.count("package")) chipArgs.package = vm["package"].as(); if (vm.count("speed")) { int speed = vm["speed"].as(); switch (speed) { case 6: chipArgs.speed = ArchArgs::SPEED_6; break; case 7: chipArgs.speed = ArchArgs::SPEED_7; break; case 8: chipArgs.speed = ArchArgs::SPEED_8; break; default: log_error("Unsupported speed grade '%d'\n", speed); } } else { if (chipArgs.type == ArchArgs::LFE5UM5G_25F || chipArgs.type == ArchArgs::LFE5UM5G_45F || chipArgs.type == ArchArgs::LFE5UM5G_85F) { chipArgs.speed = ArchArgs::SPEED_8; } else chipArgs.speed = ArchArgs::SPEED_6; } if (values.find("arch.name") != values.end()) { std::string arch_name = values["arch.name"].str; if (arch_name != "ecp5") log_error("Unsuported architecture '%s'.\n", arch_name.c_str()); } if (values.find("arch.type") != values.end()) { std::string arch_type = values["arch.type"].str; if (chipArgs.type != ArchArgs::NONE) log_error("Overriding architecture is unsuported.\n"); if (arch_type == "lfe5u_25f") chipArgs.type = ArchArgs::LFE5U_25F; if (arch_type == "lfe5u_45f") chipArgs.type = ArchArgs::LFE5U_45F; if (arch_type == "lfe5u_85f") chipArgs.type = ArchArgs::LFE5U_85F; if (arch_type == "lfe5um_25f") chipArgs.type = ArchArgs::LFE5UM_25F; if (arch_type == "lfe5um_45f") chipArgs.type = ArchArgs::LFE5UM_45F; if (arch_type == "lfe5um_85f") chipArgs.type = ArchArgs::LFE5UM_85F; if (arch_type == "lfe5um5g_25f") chipArgs.type = ArchArgs::LFE5UM5G_25F; if (arch_type == "lfe5um5g_45f") chipArgs.type = ArchArgs::LFE5UM5G_45F; if (arch_type == "lfe5um5g_85f") chipArgs.type = ArchArgs::LFE5UM5G_85F; if (chipArgs.type == ArchArgs::NONE) log_error("Unsuported FPGA type '%s'.\n", arch_type.c_str()); } if (values.find("arch.package") != values.end()) { if (vm.count("package")) log_error("Overriding architecture is unsuported.\n"); chipArgs.package = values["arch.package"].str; } if (values.find("arch.speed") != values.end()) { std::string arch_speed = values["arch.speed"].str; if (arch_speed == "6") chipArgs.speed = ArchArgs::SPEED_6; else if (arch_speed == "7") chipArgs.speed = ArchArgs::SPEED_7; else if (arch_speed == "8") chipArgs.speed = ArchArgs::SPEED_8; else log_error("Unsuported speed '%s'.\n", arch_speed.c_str()); } if (chipArgs.type == ArchArgs::NONE) chipArgs.type = ArchArgs::LFE5U_45F; if (chipArgs.package.empty()) chipArgs.package = "CABGA381"; if (chipArgs.type == ArchArgs::LFE5UM5G_25F || chipArgs.type == ArchArgs::LFE5UM5G_45F || chipArgs.type == ArchArgs::LFE5UM5G_85F) { if (chipArgs.speed != ArchArgs::SPEED_8) log_error("Only speed grade 8 is available for 5G parts\n"); else chipArgs.speed = ArchArgs::SPEED_8_5G; } auto ctx = std::unique_ptr(new Context(chipArgs)); for (auto &val : values) ctx->settings[ctx->id(val.first)] = val.second; ctx->settings[ctx->id("arch.package")] = ctx->archArgs().package; ctx->settings[ctx->id("arch.speed")] = speedString(ctx->archArgs().speed); return ctx; } void ECP5CommandHandler::customAfterLoad(Context *ctx) { if (vm.count("lpf")) { std::vector files = vm["lpf"].as>(); for (const auto &filename : files) { std::ifstream in(filename); if (!in) log_error("failed to open LPF file '%s'\n", filename.c_str()); if (!ctx->applyLPF(filename, in)) log_error("failed to parse LPF file '%s'\n", filename.c_str()); } for (auto cell : sorted(ctx->cells)) { CellInfo *ci = cell.second; if (ci->type == ctx->id("$nextpnr_ibuf") || ci->type == ctx->id("$nextpnr_obuf") || ci->type == ctx->id("$nextpnr_iobuf")) { if (!ci->attrs.count(ctx->id("LOC"))) { if (vm.count("lpf-allow-unconstrained")) log_warning("IO '%s' is unconstrained in LPF and will be automatically placed\n", cell.first.c_str(ctx)); else log_error("IO '%s' is unconstrained in LPF (override this error with " "--lpf-allow-unconstrained)\n", cell.first.c_str(ctx)); } } } } } int main(int argc, char *argv[]) { ECP5CommandHandler handler(argc, argv); return handler.exec(); } #endif