diff --git a/.gitignore b/.gitignore index ef6d2aca5..40932b883 100644 --- a/.gitignore +++ b/.gitignore @@ -91,3 +91,6 @@ ENV/ # Rope project settings .ropeproject + +# VS Code settings +.vscode diff --git a/litex/tools/litex_client.py b/litex/tools/litex_client.py index ee6ab39e4..9053a376c 100644 --- a/litex/tools/litex_client.py +++ b/litex/tools/litex_client.py @@ -31,8 +31,11 @@ class RemoteClient(EtherboneIPC, CSRBuilder): csr_data_width = 32 self.host = host self.port = port - self.base_address = base_address self.debug = debug + if base_address is not None: + self.base_address = base_address + else: + self.base_address = 0 def open(self): if hasattr(self, "socket"): diff --git a/litex/tools/litex_term.py b/litex/tools/litex_term.py index 606d7d60d..833981d10 100755 --- a/litex/tools/litex_term.py +++ b/litex/tools/litex_term.py @@ -87,8 +87,8 @@ else: from litex import RemoteClient class BridgeUART: - def __init__(self, name="uart_xover", host="localhost", base_address=0): # FIXME: add command line arguments - self.bus = RemoteClient(host=host, base_address=base_address) + def __init__(self, name="uart_xover", host="localhost", base_address=None, csr_csv=None): # FIXME: add command line arguments + self.bus = RemoteClient(host=host, base_address=base_address, csr_csv=csr_csv) present = False for k, v in self.bus.regs.d.items(): if f"{name}_" in k: @@ -97,6 +97,10 @@ class BridgeUART: if not present: raise ValueError(f"CrossoverUART {name} not present in design.") + # On PCIe designs, CSR is remapped to 0 to limit BAR0 size. + if base_address is None and hasattr(self.bus.bases, "pcie_phy"): + self.bus.base_address = -self.bus.mems.csr.base + def open(self): self.bus.open() self.file, self.name = pty.openpty() @@ -534,17 +538,19 @@ class LiteXTerm: def _get_args(): parser = argparse.ArgumentParser() parser.add_argument("port", help="Serial port (eg /dev/tty*, bridge, jtag)") - parser.add_argument("--speed", default=115200, help="Serial baudrate") - parser.add_argument("--serial-boot", default=False, action='store_true', help="Automatically initiate serial boot") - parser.add_argument("--kernel", default=None, help="Kernel image") - parser.add_argument("--kernel-adr", default="0x40000000", help="Kernel address") - parser.add_argument("--images", default=None, help="JSON description of the images to load to memory") + parser.add_argument("--speed", default=115200, help="Serial baudrate") + parser.add_argument("--serial-boot", default=False, action='store_true', help="Automatically initiate serial boot") + parser.add_argument("--kernel", default=None, help="Kernel image") + parser.add_argument("--kernel-adr", default="0x40000000", help="Kernel address") + parser.add_argument("--images", default=None, help="JSON description of the images to load to memory") - parser.add_argument("--bridge-name", default="uart_xover", help="Bridge UART name to use (present in design/csr.csv)") + parser.add_argument("--csr-csv", default=None, help="SoC mapping file") + parser.add_argument("--base-address", default=None, help="CSR base address") + parser.add_argument("--bridge-name", default="uart_xover", help="Bridge UART name to use (present in design/csr.csv)") - parser.add_argument("--jtag-name", default="jtag_uart", help="JTAG UART type: jtag_uart (default), jtag_atlantic") - parser.add_argument("--jtag-config", default="openocd_xc7_ft2232.cfg", help="OpenOCD JTAG configuration file for jtag_uart") - parser.add_argument("--jtag-chain", default=1, help="JTAG chain.") + parser.add_argument("--jtag-name", default="jtag_uart", help="JTAG UART type: jtag_uart (default), jtag_atlantic") + parser.add_argument("--jtag-config", default="openocd_xc7_ft2232.cfg", help="OpenOCD JTAG configuration file for jtag_uart") + parser.add_argument("--jtag-chain", default=1, help="JTAG chain.") return parser.parse_args() def main(): @@ -555,7 +561,11 @@ def main(): if args.port in ["bridge", "jtag"]: raise NotImplementedError if args.port in ["bridge", "crossover"]: # FIXME: 2021-02-18, crossover for retro-compatibility remove and update targets? - bridge = BridgeUART(name=args.bridge_name) + if args.base_address is not None: + base_address = int(args.base_address) + else: + base_address = None + bridge = BridgeUART(base_address=base_address,csr_csv=args.csr_csv,name=args.bridge_name) bridge.open() port = os.ttyname(bridge.name) elif args.port in ["jtag"]: