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/*
* nextpnr -- Next Generation Place and Route
*
* Copyright (C) 2018 Claire Xenia Wolf <claire@yosyshq.com>
* Copyright (C) 2018 Miodrag Milanovic <micko@yosyshq.com>
*
* 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 <fstream>
#include "bitstream.h"
#include "command.h"
#include "design_utils.h"
#include "log.h"
#include "pcf.h"
#include "timing.h"
USING_NEXTPNR_NAMESPACE
class Ice40CommandHandler : public CommandHandler
{
public:
Ice40CommandHandler(int argc, char **argv);
virtual ~Ice40CommandHandler(){};
std::unique_ptr<Context> createContext(dict<std::string, Property> &values) override;
void setupArchContext(Context *ctx) override;
void validate() override;
void customAfterLoad(Context *ctx) override;
void customBitstream(Context *ctx) override;
protected:
po::options_description getArchOptions() override;
};
Ice40CommandHandler::Ice40CommandHandler(int argc, char **argv) : CommandHandler(argc, argv) {}
po::options_description Ice40CommandHandler::getArchOptions()
{
po::options_description specific("Architecture specific options");
if (Arch::is_available(ArchArgs::LP384))
specific.add_options()("lp384", "set device type to iCE40LP384");
if (Arch::is_available(ArchArgs::LP1K))
specific.add_options()("lp1k", "set device type to iCE40LP1K");
if (Arch::is_available(ArchArgs::LP4K))
specific.add_options()("lp4k", "set device type to iCE40LP4K");
if (Arch::is_available(ArchArgs::LP8K))
specific.add_options()("lp8k", "set device type to iCE40LP8K");
if (Arch::is_available(ArchArgs::HX1K))
specific.add_options()("hx1k", "set device type to iCE40HX1K");
if (Arch::is_available(ArchArgs::HX8K))
specific.add_options()("hx4k", "set device type to iCE40HX4K");
if (Arch::is_available(ArchArgs::HX4K))
specific.add_options()("hx8k", "set device type to iCE40HX8K");
if (Arch::is_available(ArchArgs::UP3K))
specific.add_options()("up3k", "set device type to iCE40UP3K");
if (Arch::is_available(ArchArgs::UP5K))
specific.add_options()("up5k", "set device type to iCE40UP5K");
if (Arch::is_available(ArchArgs::U1K))
specific.add_options()("u1k", "set device type to iCE5LP1K");
if (Arch::is_available(ArchArgs::U2K))
specific.add_options()("u2k", "set device type to iCE5LP2K");
if (Arch::is_available(ArchArgs::U4K))
specific.add_options()("u4k", "set device type to iCE5LP4K");
specific.add_options()("package", po::value<std::string>(), "set device package");
specific.add_options()("pcf", po::value<std::string>(), "PCF constraints file to ingest");
specific.add_options()("asc", po::value<std::string>(), "asc bitstream file to write");
specific.add_options()("read", po::value<std::string>(), "asc bitstream file to read");
specific.add_options()("promote-logic",
"enable promotion of 'logic' globals (in addition to clk/ce/sr by default)");
specific.add_options()("no-promote-globals", "disable all global promotion");
specific.add_options()("opt-timing", "run post-placement timing optimisation pass (experimental)");
specific.add_options()("tmfuzz", "run path delay estimate fuzzer");
specific.add_options()("pcf-allow-unconstrained", "don't require PCF to constrain all IO");
return specific;
}
void Ice40CommandHandler::validate()
{
conflicting_options(vm, "read", "json");
if ((vm.count("lp384") + vm.count("lp1k") + vm.count("lp4k") + vm.count("lp8k") + vm.count("hx1k") +
vm.count("hx4k") + vm.count("hx8k") + vm.count("up3k") + vm.count("up5k") + vm.count("u1k") + vm.count("u2k") +
vm.count("u4k")) > 1)
log_error("Only one device type can be set\n");
}
void Ice40CommandHandler::customAfterLoad(Context *ctx)
{
if (vm.count("pcf")) {
std::string filename = vm["pcf"].as<std::string>();
std::ifstream pcf(filename);
if (!apply_pcf(ctx, filename, pcf))
log_error("Loading PCF failed.\n");
} else {
log_warning("No PCF file specified; IO pins will be placed automatically\n");
}
}
void Ice40CommandHandler::customBitstream(Context *ctx)
{
if (vm.count("asc")) {
std::string filename = vm["asc"].as<std::string>();
std::ofstream f(filename);
write_asc(ctx, f);
}
}
void Ice40CommandHandler::setupArchContext(Context *ctx)
{
if (vm.count("tmfuzz"))
ice40DelayFuzzerMain(ctx);
if (vm.count("read")) {
std::string filename = vm["read"].as<std::string>();
std::ifstream f(filename);
if (!read_asc(ctx, f))
log_error("Loading ASC failed.\n");
}
}
std::unique_ptr<Context> Ice40CommandHandler::createContext(dict<std::string, Property> &values)
{
ArchArgs chipArgs;
chipArgs.type = ArchArgs::NONE;
if (vm.count("lp384")) {
chipArgs.type = ArchArgs::LP384;
chipArgs.package = "qn32";
}
if (vm.count("lp1k")) {
chipArgs.type = ArchArgs::LP1K;
chipArgs.package = "tq144";
}
if (vm.count("lp4k")) {
chipArgs.type = ArchArgs::LP4K;
chipArgs.package = "tq144";
}
if (vm.count("lp8k")) {
chipArgs.type = ArchArgs::LP8K;
chipArgs.package = "ct256";
}
if (vm.count("hx1k")) {
chipArgs.type = ArchArgs::HX1K;
chipArgs.package = "tq144";
}
if (vm.count("hx4k")) {
chipArgs.type = ArchArgs::HX4K;
chipArgs.package = "tq144";
}
if (vm.count("hx8k")) {
chipArgs.type = ArchArgs::HX8K;
chipArgs.package = "ct256";
}
if (vm.count("up3k")) {
chipArgs.type = ArchArgs::UP3K;
chipArgs.package = "sg48";
}
if (vm.count("up5k")) {
chipArgs.type = ArchArgs::UP5K;
chipArgs.package = "sg48";
}
if (vm.count("u1k")) {
chipArgs.type = ArchArgs::U1K;
chipArgs.package = "sg48";
}
if (vm.count("u2k")) {
chipArgs.type = ArchArgs::U2K;
chipArgs.package = "sg48";
}
if (vm.count("u4k")) {
chipArgs.type = ArchArgs::U4K;
chipArgs.package = "sg48";
}
if (vm.count("package"))
chipArgs.package = vm["package"].as<std::string>();
else
log_warning("Use of default value for --package is deprecated. Please add '--package %s' to arguments.\n",
chipArgs.package.c_str());
if (values.find("arch.name") != values.end()) {
std::string arch_name = values["arch.name"].as_string();
if (arch_name != "ice40")
log_error("Unsupported architecture '%s'.\n", arch_name.c_str());
}
if (values.find("arch.type") != values.end()) {
std::string arch_type = values["arch.type"].as_string();
if (chipArgs.type != ArchArgs::NONE)
log_error("Overriding architecture is unsupported.\n");
if (arch_type == "lp384") {
chipArgs.type = ArchArgs::LP384;
}
if (arch_type == "lp1k") {
chipArgs.type = ArchArgs::LP1K;
}
if (arch_type == "lp4k") {
chipArgs.type = ArchArgs::LP4K;
}
if (arch_type == "lp8k") {
chipArgs.type = ArchArgs::LP8K;
}
if (arch_type == "hx1k") {
chipArgs.type = ArchArgs::HX1K;
}
if (arch_type == "hx4k") {
chipArgs.type = ArchArgs::HX4K;
}
if (arch_type == "hx8k") {
chipArgs.type = ArchArgs::HX8K;
}
if (arch_type == "up3k") {
chipArgs.type = ArchArgs::UP3K;
}
if (arch_type == "up5k") {
chipArgs.type = ArchArgs::UP5K;
}
if (arch_type == "u1k") {
chipArgs.type = ArchArgs::U1K;
}
if (arch_type == "u2k") {
chipArgs.type = ArchArgs::U2K;
}
if (arch_type == "u4k") {
chipArgs.type = ArchArgs::U4K;
}
if (chipArgs.type == ArchArgs::NONE)
log_error("Unsupported FPGA type '%s'.\n", arch_type.c_str());
}
if (values.find("arch.package") != values.end()) {
if (vm.count("package"))
log_error("Overriding architecture is unsupported.\n");
chipArgs.package = values["arch.package"].as_string();
}
if (chipArgs.type == ArchArgs::NONE) {
chipArgs.type = ArchArgs::HX1K;
chipArgs.package = "tq144";
}
auto ctx = std::unique_ptr<Context>(new Context(chipArgs));
for (auto &val : values)
ctx->settings[ctx->id(val.first)] = val.second;
ctx->settings[ctx->id("arch.package")] = ctx->archArgs().package;
if (vm.count("promote-logic"))
ctx->settings[ctx->id("promote_logic")] = Property::State::S1;
if (vm.count("no-promote-globals"))
ctx->settings[ctx->id("no_promote_globals")] = Property::State::S1;
if (vm.count("opt-timing"))
ctx->settings[ctx->id("opt_timing")] = Property::State::S1;
if (vm.count("pcf-allow-unconstrained"))
ctx->settings[ctx->id("pcf_allow_unconstrained")] = Property::State::S1;
return ctx;
}
int main(int argc, char *argv[])
{
Ice40CommandHandler handler(argc, argv);
return handler.exec();
}
#endif
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