Add address space abstraction

cocotbext/axi/__init__.py

@@ -26,6 +26,10 @@ from .version import __version__
 
 from .constants import AxiBurstType, AxiBurstSize, AxiLockType, AxiCacheBit, AxiProt, AxiResp
 
+from .address_space import MemoryInterface, Window, WindowPool
+from .address_space import Region, MemoryRegion, PeripheralRegion
+from .address_space import AddressSpace, Pool
+
 from .axis import AxiStreamFrame, AxiStreamBus, AxiStreamSource, AxiStreamSink, AxiStreamMonitor
 
 from .axil_channels import AxiLiteAWBus, AxiLiteWBus, AxiLiteBBus, AxiLiteARBus, AxiLiteRBus

cocotbext/axi/address_space.py

@@ -0,0 +1,320 @@
+"""
+
+Copyright (c) 2021 Alex Forencich
+
+Permission is hereby granted, free of charge, to any person obtaining a copy
+of this software and associated documentation files (the "Software"), to deal
+in the Software without restriction, including without limitation the rights
+to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+copies of the Software, and to permit persons to whom the Software is
+furnished to do so, subject to the following conditions:
+
+The above copyright notice and this permission notice shall be included in
+all copies or substantial portions of the Software.
+
+THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY
+FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+THE SOFTWARE.
+
+"""
+
+import mmap
+
+from .buddy_allocator import BuddyAllocator
+from .utils import hexdump, hexdump_lines, hexdump_str
+
+
+class MemoryInterface:
+    def __init__(self, size, base=0, parent=None, **kwargs):
+        self._parent = parent
+        self._size = size
+        self._base = base
+        super().__init__(**kwargs)
+
+    @property
+    def parent(self):
+        return self._parent
+
+    @property
+    def size(self):
+        return self._size
+
+    @property
+    def base(self):
+        return self._base
+
+    def check_range(self, address, length=0):
+        if address < 0 or address >= self.size:
+            raise ValueError("address out of range")
+        if length < 0:
+            raise ValueError("invalid length")
+        if address+length > self.size:
+            raise ValueError("operation out of range")
+
+    def get_absolute_address(self, address):
+        if self.base is None:
+            return None
+        self.check_range(address)
+        return address+self.base
+
+    async def _read(self, address, length, **kwargs):
+        raise NotImplementedError()
+
+    async def read(self, address, length, **kwargs):
+        self.check_range(address, length)
+        return await self._read(address, length, **kwargs)
+
+    async def read_words(self, address, count, byteorder='little', ws=2, **kwargs):
+        data = bytes(await self.read(address, count*ws, **kwargs))
+        words = []
+        for k in range(count):
+            words.append(int.from_bytes(data[ws*k:ws*(k+1)], byteorder))
+        return words
+
+    async def read_dwords(self, address, count, byteorder='little', **kwargs):
+        return await self.read_words(address, count, byteorder, 4, **kwargs)
+
+    async def read_qwords(self, address, count, byteorder='little', **kwargs):
+        return await self.read_words(address, count, byteorder, 8, **kwargs)
+
+    async def read_byte(self, address, **kwargs):
+        return (await self.read(address, 1, **kwargs)).data[0]
+
+    async def read_word(self, address, byteorder='little', ws=2, **kwargs):
+        return (await self.read_words(address, 1, byteorder, ws, **kwargs))[0]
+
+    async def read_dword(self, address, byteorder='little', **kwargs):
+        return (await self.read_dwords(address, 1, byteorder, **kwargs))[0]
+
+    async def read_qword(self, address, byteorder='little', **kwargs):
+        return (await self.read_qwords(address, 1, byteorder, **kwargs))[0]
+
+    async def _write(self, address, data, **kwargs):
+        raise NotImplementedError()
+
+    async def write(self, address, data, **kwargs):
+        self.check_range(address, len(data))
+        await self._write(address, data, **kwargs)
+
+    async def write_words(self, address, data, byteorder='little', ws=2, **kwargs):
+        words = data
+        data = bytearray()
+        for w in words:
+            data.extend(w.to_bytes(ws, byteorder))
+        await self.write(address, data, **kwargs)
+
+    async def write_dwords(self, address, data, byteorder='little', **kwargs):
+        await self.write_words(address, data, byteorder, 4, **kwargs)
+
+    async def write_qwords(self, address, data, byteorder='little', **kwargs):
+        await self.write_words(address, data, byteorder, 8, **kwargs)
+
+    async def write_byte(self, address, data, **kwargs):
+        await self.write(address, [data], **kwargs)
+
+    async def write_word(self, address, data, byteorder='little', ws=2, **kwargs):
+        await self.write_words(address, [data], byteorder, ws, **kwargs)
+
+    async def write_dword(self, address, data, byteorder='little', **kwargs):
+        await self.write_dwords(address, [data], byteorder, **kwargs)
+
+    async def write_qword(self, address, data, byteorder='little', **kwargs):
+        await self.write_qwords(address, [data], byteorder, **kwargs)
+
+    def create_window(self, offset, size):
+        self.check_range(offset, size)
+        return Window(self, offset, size, base=self.get_absolute_address(offset))
+
+    def create_window_pool(self, offset=None, size=None):
+        if offset is None:
+            offset = 0
+        if size is None:
+            size = self.size - offset
+        self.check_range(offset, size)
+        return WindowPool(self, offset, size, base=self.get_absolute_address(offset))
+
+    def __len__(self):
+        return self._size
+
+
+class Window(MemoryInterface):
+    def __init__(self, parent, offset, size, base=0, **kwargs):
+        super().__init__(size, base=base, parent=parent, **kwargs)
+        self._offset = offset
+
+    @property
+    def offset(self):
+        return self._offset
+
+    def get_parent_address(self, address):
+        if address < 0 or address >= self.size:
+            raise ValueError("address out of range")
+        return address+self.offset
+
+    async def _read(self, address, length, **kwargs):
+        return await self.parent.read(self.get_parent_address(address), length, **kwargs)
+
+    async def _write(self, address, data, **kwargs):
+        await self.parent.write(self.get_parent_address(address), data, **kwargs)
+
+
+class WindowPool(Window):
+    def __init__(self, parent, offset, size, base=None, **kwargs):
+        super().__init__(parent, offset, size, base=base, **kwargs)
+        self.allocator = BuddyAllocator(size)
+
+    def alloc_window(self, size):
+        return self.create_window(self.allocator.alloc(size), size)
+
+
+class Region(MemoryInterface):
+    def __init__(self, size, **kwargs):
+        super().__init__(size, **kwargs)
+
+
+class MemoryRegion(Region):
+    def __init__(self, size=4096, mem=None, **kwargs):
+        super().__init__(size, **kwargs)
+        if mem is None:
+            mem = mmap.mmap(-1, size)
+        self.mem = mem
+
+    async def _read(self, address, length, **kwargs):
+        return self.mem[address:address+length]
+
+    async def _write(self, address, data, **kwargs):
+        self.mem[address:address+len(data)] = data
+
+    def hexdump(self, address, length, prefix=""):
+        hexdump(self.mem[address:address+length], prefix=prefix, offset=address)
+
+    def hexdump_lines(self, address, length, prefix=""):
+        return hexdump_lines(self.mem[address:address+length], prefix=prefix, offset=address)
+
+    def hexdump_str(self, address, length, prefix=""):
+        return hexdump_str(self.mem[address:address+length], prefix=prefix, offset=address)
+
+    def __getitem__(self, key):
+        return self.mem[key]
+
+    def __setitem__(self, key, value):
+        self.mem[key] = value
+
+    def __bytes__(self):
+        return bytes(self.mem)
+
+
+class PeripheralRegion(Region):
+    def __init__(self, obj, size, **kwargs):
+        super().__init__(size, **kwargs)
+        self.obj = obj
+
+    async def _read(self, address, length, **kwargs):
+        try:
+            return await self.obj.read(address, length, **kwargs)
+        except TypeError:
+            return self.obj.read(address, length, **kwargs)
+
+    async def _write(self, address, data, **kwargs):
+        try:
+            await self.obj.write(address, data, **kwargs)
+        except TypeError:
+            self.obj.write(address, data, **kwargs)
+
+
+class AddressSpace(Region):
+    def __init__(self, size=2**64, base=0, parent=None, **kwargs):
+        super().__init__(size=size, base=base, parent=parent, **kwargs)
+        self.regions = []
+
+    def find_regions(self, address, length=1):
+        regions = []
+        if address < 0 or address >= self.size:
+            raise ValueError("address out of range")
+        if length < 0:
+            raise ValueError("invalid length")
+        length = max(length, 1)
+        for (base, size, translate, region) in self.regions:
+            if address < base+size and base < address+length:
+                regions.append((base, size, translate, region))
+        regions.sort()
+        return regions
+
+    def register_region(self, region, base, size=None, offset=0):
+        if size is None:
+            size = region.size
+        if self.find_regions(base, size):
+            raise ValueError("overlaps existing region")
+        region._parent = self
+        if offset == 0:
+            region._base = self.get_absolute_address(base)
+        else:
+            region._base = None
+        self.regions.append((base, size, offset, region))
+
+    async def read(self, address, length, **kwargs):
+        regions = self.find_regions(address, length)
+        data = bytearray()
+        if not regions:
+            raise Exception("Invalid address")
+        for base, size, offset, region in regions:
+            if base > address:
+                raise Exception("Invalid address")
+            seg_addr = address - base
+            seg_len = min(size-seg_addr, length)
+            if offset is None:
+                seg_addr = address
+                offset = 0
+            data.extend(bytes(await region.read(seg_addr+offset, seg_len, **kwargs)))
+            address += seg_len
+            length -= seg_len
+        if length > 0:
+            raise Exception("Invalid address")
+        return bytes(data)
+
+    async def write(self, address, data, **kwargs):
+        start = 0
+        length = len(data)
+        regions = self.find_regions(address, length)
+        if not regions:
+            raise Exception("Invalid address")
+        for base, size, offset, region in regions:
+            if base > address:
+                raise Exception("Invalid address")
+            seg_addr = address - base
+            seg_len = min(size-seg_addr, length)
+            if offset is None:
+                seg_addr = address
+                offset = 0
+            await region.write(seg_addr+offset, data[start:start+seg_len], **kwargs)
+            address += seg_len
+            start += seg_len
+            length -= seg_len
+        if length > 0:
+            raise Exception("Invalid address")
+
+    def create_pool(self, base=None, size=None):
+        if base is None:
+            base = 0
+        if size is None:
+            size = self.size - base
+        self.check_range(base, size)
+        pool = Pool(self, base, size)
+        self.register_region(pool, base, size)
+        return pool
+
+
+class Pool(AddressSpace):
+    def __init__(self, parent, base, size, **kwargs):
+        super().__init__(parent=parent, base=base, size=size, **kwargs)
+        self.allocator = BuddyAllocator(size)
+
+    def alloc_region(self, size):
+        base = self.allocator.alloc(size)
+        region = MemoryRegion(size)
+        self.register_region(region, base)
+        return region