yosys/backends/cxxrtl/cxxrtl_capi.h

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/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2020 whitequark <whitequark@whitequark.org>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted.
*
* 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.
*
*/
#ifndef CXXRTL_CAPI_H
#define CXXRTL_CAPI_H
// This file is a part of the CXXRTL C API. It should be used together with `cxxrtl_capi.cc`.
//
// The CXXRTL C API makes it possible to drive CXXRTL designs using C or any other language that
// supports the C ABI, for example, Python. It does not provide a way to implement black boxes.
#include <stddef.h>
#include <stdint.h>
#ifdef __cplusplus
extern "C" {
#endif
// Opaque reference to a design toplevel.
//
// A design toplevel can only be used to create a design handle.
typedef struct _cxxrtl_toplevel *cxxrtl_toplevel;
// The constructor for a design toplevel is provided as a part of generated code for that design.
// Its prototype matches:
//
// cxxrtl_toplevel <design-name>_create();
// Opaque reference to a design handle.
//
// A design handle is required by all operations in the C API.
typedef struct _cxxrtl_handle *cxxrtl_handle;
// Create a design handle from a design toplevel.
//
// The `design` is consumed by this operation and cannot be used afterwards.
cxxrtl_handle cxxrtl_create(cxxrtl_toplevel design);
// Release all resources used by a design and its handle.
void cxxrtl_destroy(cxxrtl_handle handle);
// Simulate the design to a fixed point.
//
// Returns the number of delta cycles.
size_t cxxrtl_step(cxxrtl_handle handle);
// Type of a simulated object.
enum cxxrtl_type {
// Values correspond to singly buffered netlist nodes, i.e. nodes driven exclusively by
// combinatorial cells, or toplevel input nodes.
//
// Values can be inspected via the `curr` pointer. If the `next` pointer is NULL, the value is
// driven by a constant and can never be modified. Otherwise, the value can be modified through
// the `next` pointer (which is equal to `curr` if not NULL). Note that changes to the bits
// driven by combinatorial cells will be ignored.
//
// Values always have depth 1.
CXXRTL_VALUE = 0,
// Wires correspond to doubly buffered netlist nodes, i.e. nodes driven, at least in part, by
// storage cells, or by combinatorial cells that are a part of a feedback path.
//
// Wires can be inspected via the `curr` pointer and modified via the `next` pointer (which are
// distinct for wires). Note that changes to the bits driven by combinatorial cells will be
// ignored.
//
// Wires always have depth 1.
CXXRTL_WIRE = 1,
// Memories correspond to memory cells.
//
// Memories can be inspected and modified via the `curr` pointer. Due to a limitation of this
// API, memories cannot yet be modified in a guaranteed race-free way, and the `next` pointer is
// always NULL.
CXXRTL_MEMORY = 2,
// Aliases correspond to netlist nodes driven by another node such that their value is always
// exactly equal, or driven by a constant value.
//
// Aliases can be inspected via the `curr` pointer. They cannot be modified, and the `next`
// pointer is always NULL.
CXXRTL_ALIAS = 3,
// More object types may be added in the future, but the existing ones will never change.
};
// Description of a simulated object.
//
// The `data` array can be accessed directly to inspect and, if applicable, modify the bits
// stored in the object.
struct cxxrtl_object {
// Type of the object.
//
// All objects have the same memory layout determined by `width` and `depth`, but the type
// determines all other properties of the object.
uint32_t type; // actually `enum cxxrtl_type`
// Width of the object in bits.
size_t width;
// Depth of the object. Only meaningful for memories; for other objects, always 1.
size_t depth;
// Bits stored in the object, as 32-bit chunks, least significant bits first.
//
// The width is rounded up to a multiple of 32; the padding bits are always set to 0 by
// the simulation code, and must be always written as 0 when modified by user code.
// In memories, every element is stored contiguously. Therefore, the total number of chunks
// in any object is `((width + 31) / 32) * depth`.
//
// To allow the simulation to be partitioned into multiple independent units communicating
// through wires, the bits are double buffered. To avoid race conditions, user code should
// always read from `curr` and write to `next`. The `curr` pointer is always valid; for objects
// that cannot be modified, or cannot be modified in a race-free way, `next` is NULL.
uint32_t *curr;
uint32_t *next;
// More description fields may be added in the future, but the existing ones will never change.
};
// Retrieve description of a simulated object.
//
// The `name` is the full hierarchical name of the object in the Yosys notation, where public names
// have a `\` prefix and hierarchy levels are separated by single spaces. For example, if
// the top-level module instantiates a module `foo`, which in turn contains a wire `bar`, the full
// hierarchical name is `\foo \bar`.
//
// Returns the object if it was found, NULL otherwise. The returned value is valid until the design
// is destroyed.
struct cxxrtl_object *cxxrtl_get(cxxrtl_handle handle, const char *name);
// Enumerate simulated objects.
//
// For every object in the simulation, `callback` is called with the provided `data`, the full
// hierarchical name of the object (see `cxxrtl_get` for details), and the object description.
// The provided `name` and `object` values are valid until the design is destroyed.
void cxxrtl_enum(cxxrtl_handle handle, void *data,
void (*callback)(void *data, const char *name, struct cxxrtl_object *object));
#ifdef __cplusplus
}
#endif
#endif