Exemplo n.º 1
0
def transform_args(format, event, *args, **kwargs):
    """Transforms the arguments to suit the specified format.

    The format module must implement function 'vcpu_args', which receives the
    implicit arguments added by the 'vcpu' property, and must return suitable
    arguments for the given format.

    The function is only called for events with the 'vcpu' property.

    Parameters
    ==========
    format : str
        Format module name.
    event : Event
    args, kwargs
        Passed to 'vcpu_transform_args'.

    Returns
    =======
    Arguments
        The transformed arguments, including the non-implicit ones.

    """
    if "vcpu" in event.properties:
        ok, func = try_import("tracetool.format." + format,
                              "vcpu_transform_args")
        assert ok
        assert func
        return Arguments(
            [func(event.args[:1], *args, **kwargs), event.args[1:]])
    else:
        return event.args
Exemplo n.º 2
0
def transform_event(event):
    """Transform event to comply with the 'vcpu' property (if present)."""
    if "vcpu" in event.properties:
        event.args = Arguments([("void *", "__cpu"), event.args])
        fmt = "\"cpu=%p \""
        event.fmt = fmt + event.fmt
    return event
Exemplo n.º 3
0
def vcpu_transform_args(args):
    assert len(args) == 1
    return Arguments([
        args,
        # NOTE: this name must be kept in sync with the one in "tcg_h"
        # NOTE: Current helper code uses TCGv_env (CPUArchState*)
        ("TCGv_env", "__tcg_" + args.names()[0]),
    ])
def vcpu_transform_args(args, mode):
    assert len(args) == 1
    # NOTE: this name must be kept in sync with the one in "tcg_h"
    args = Arguments([(args.types()[0], "__tcg_" + args.names()[0])])
    if mode == "code":
        return Arguments([
            # Does cast from helper requirements to tracing types
            ("CPUState *", "ENV_GET_CPU(%s)" % args.names()[0]),
        ])
    else:
        args = Arguments([
            # NOTE: Current helper code uses TCGv_env (CPUArchState*)
            ("CPUArchState *", args.names()[0]),
        ])
        if mode == "header":
            return args
        elif mode == "wrapper":
            return args.transform(HOST_2_TCG)
        else:
            assert False
Exemplo n.º 5
0
def transform_event(event):
    """Transform event to comply with the 'vcpu' property (if present)."""
    if "vcpu" in event.properties:
        # events with 'tcg-trans' and 'tcg-exec' are auto-generated from
        # already-patched events
        assert "tcg-trans" not in event.properties
        assert "tcg-exec" not in event.properties

        event.args = Arguments([("CPUState *", "__cpu"), event.args])
        if "tcg" in event.properties:
            fmt = "\"cpu=%p \""
            event.fmt = [fmt + event.fmt[0], fmt + event.fmt[1]]
        else:
            fmt = "\"cpu=%p \""
            event.fmt = fmt + event.fmt
    return event
Exemplo n.º 6
0
def vcpu_transform_args(args, mode):
    assert len(args) == 1
    # NOTE: this name must be kept in sync with the one in "tcg_h"
    args = Arguments([(args.types()[0], "__tcg_" + args.names()[0])])
    if mode == "code":
        return Arguments([
            # Does cast from helper requirements to tracing types
            ("CPUState *", "ENV_GET_CPU(%s)" % args.names()[0]),
        ])
    else:
        args = Arguments([
            # NOTE: Current helper code uses TCGv_env (CPUArchState*)
            ("CPUArchState *", args.names()[0]),
        ])
        if mode == "header":
            return args
        elif mode == "wrapper":
            return args.transform(HOST_2_TCG)
        else:
            assert False