0f701a64be
A v2 register description file can now include register variants and instances addresses can now be a list (previously it could only be a stride or a formula). Update the library to deal with that. The convert option of swiss_knife was updated and one incompatible change was introduce: if a v1 device has several addresses, those are converted to a single v2 instance with list (instead of several single instances). This should have been the behaviour from the start. Swiss_knife can now also convert regdumps, in which case it needs to be given both the dump and register description file. Also introduce two register descriptions files (vsoc1000 and vsoc2000) which give more complicated examples of v2 register description files. Change-Id: Id9415b8363269ffaf9216abfc6dd1bd1adbfcf8d
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403 lines
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13 KiB
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This file describes the format of the register map based on XML, version 2.0.
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1) Overview
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-----------
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1.1) Nodes and instances
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------------------------
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This specification is based on the concept of "nodes". Nodes are containers
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which can contain other nodes and/or a register. Each node can have one or more
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addresses (addresses are always relative to the parent node). The idea is that
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this hierarchy of nodes generates a number of addresses recursively. The example
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below outlines this idea:
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<node>
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<name>N</name>
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<instance>
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<name>A</name>
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<address>X</address>
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</instance>
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<instance>
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<name>B</name>
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<address>Y</address>
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</instance>
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<!-- HERE -->
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</node>
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This example creates one node named N and two instances named A and B,
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at respective addresses X and Y. This means that all subnodes of this node will
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have two copies: one relative to X, which path will be prefixed by "A", and
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one relative to Y, which path will be prefixed by "B".
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This example below explores this idea in details:
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<!-- HERE -->
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<node>
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<name>S_N</name>
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<instance>
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<name>C</name>
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<address>U</address>
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</instance>
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<instance>
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<name>D</name>
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<address>V</address>
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</instance>
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</node>
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In this example, N generates two copies of the sub-node S_N.
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The sub-node S_N generates two instances C and D. The whole hierarchy thus generates
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four instances:
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- A.C at X+U
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- A.D at X+V
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- B.C at Y+U
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- B.D at Y+V
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As a note for later, notice that there really are two hierarchies in parallel:
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- the node hierarchy: it is composed of N and N.S_N
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- the instance hierarchy: it is made up of A, B, A.C, A.D, B.C and B.D
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1.2) Ranges
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-----------
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To make things more useful, in particular in case of multiple copies of a register,
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we introduce the concept of range addresses with an example:
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<node>
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<name>N</name>
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<instance>
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<name>A</name>
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<range>
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<first>1</first>
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<count>5</count>
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<base>0x1000</base>
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<stride>0x100</stride>
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</range>
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</instance>
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<node>
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<name>NN</name>
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<instance>
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<name>E</name>
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<address>0x4</address>
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</instance>
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</node>
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</node>
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A range describes a contiguous set of adresses, indexed by a number. One can
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specify the first number in the range, and the number of copies. In the case
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of a regular pattern (base + n * stride), we can specify a stride
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to compute the address of the next copy. In this example, the top-level
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nodes generates five copies which path is A[1], A[2], ..., A[5]
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and which addresses are 0x1000+1*0x100, 0x1000+2*0x100, ..., 0x1000+5*0x100.
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If we add the sub-node to the picture, for each copy we create a instance E
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we offset 0x4 from the parent. Overall this generates 5 instances:
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- A[1].E at 0x1000+1*0x100+0x4 = 0x1104
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- A[2].E at 0x1000+2*0x100+0x4 = 0x1204
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- A[3].E at 0x1000+3*0x100+0x4 = 0x1304
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- A[4].E at 0x1000+4*0x100+0x4 = 0x1404
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- A[5].E at 0x1000+5*0x100+0x4 = 0x1504
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Note that the intermediate path also define instances, so there are 5 additional
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instances in reality:
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- A[1] at 0x1100
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- A[2] at 0x1200
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- A[3] at 0x1300
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- A[4] at 0x1400
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- A[5] at 0x1500
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For the record, there is a more general way of specifying a range when it does
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not follow a nice regular pattern. One can specify a formula where the parameter
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is the index. There are no restrictions on the formula except that it must use
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usual arithmetic operators. The example below illustrate such a use:
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<node>
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<name>N</name>
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<instance>
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<name>F</name>
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<range>
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<first>0</first>
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<count>4</count>
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<formula variable="n">0x50+(n/2)*0x100+(n%2)*0x10</formula>
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</range>
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</instance>
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</node>
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In the case when the addresses do not follow a regular pattern or a formula would
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be too complicated, it is always possible to specify the addresses as a list:
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<node>
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<name>N</name>
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<instance>
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<name>F</name>
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<range>
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<first>0</first>
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<address>0x50</address>
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<address>0x60</address>
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<address>0x90</address>
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<address>0x110</address>
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</range>
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</instance>
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</node>
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In this example we generate four nodes F[0], ..., F[3] with a formula. Here "/"
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is the euclidian division and "%" is the modulo operator. Note the use of an
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attribute to specify which variable represents the index. The generated addresses
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are:
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- F[0] at 0x50+(0/2)*0x100+(0%2)*0x10 = 0x50
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- F[1] at 0x50+(1/2)*0x100+(1%2)*0x10 = 0x50+0x10 = 0x60
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- F[2] at 0x50+(2/2)*0x100+(2%2)*0x10 = 0x50+0x100 = 0x150
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- F[3] at 0x50+(3/2)*0x100+(3%2)*0x10 = 0x50+0x100+0x10 = 0x160
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1.3) Node description
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---------------------
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For documentation purposes, node can of course carry some description, as well
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as instances. More precisely, nodes can have a title, that is a short description
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very much like a chapter title, and a description, this is a free form and potentially
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lengthy description of the node. Instances too can have a title and a description.
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The following example illustrates this:
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<node>
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<name>icoll</name>
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<title>DMA Controller</title>
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<desc>The DMA controller provides uniform DMA facilities to transfer data from
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and to peripherals. It uses memory-mapped tables and support chained
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transfers.</desc>
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<instance>
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<name>AHB_DMAC</name>
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<address>0x80000000</address>
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<title>AHB DMA Controller</title>
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<desc>The AHB DMA controller provides DMA facilities for the peripherals
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on the AHB bus like the SSP and PIX engines.</desc>
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</instance>
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<instance>
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<name>APB_DMAC</name>
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<address>0x8001000</address>
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<title>APB DMA Controller</title>
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<desc>The APB DMA controller provides DMA facilities for the peripherals
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on the APB bus like the I2C and PCM engines.</desc>
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</instance>
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</node>
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1.4) Register description
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--------------------------
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The goal of the register description is of course to describe registers!
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To see how registers relate to the node hierarchy, see 1.5, this section focuses
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only the description only.
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A register carries a lot of information, which is organise logically. A register
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can have a width, in bits. By default registers are assumed to be 32-bit wide.
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The most useful feature of register description is to describe the fields of
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the registers. Each field has a name, a start position and a width. Fields
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can also carry a description. Finally, each field can specify enumerated values,
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that is named values, for convenience. Enumerated values have a name, a value
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and an optional description. The example below illustrates all these concepts:
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<register>
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<width>8</width>
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<desc>This register controls the parameters of the interrupt: priority, IRQ/FIQ and enable</desc>
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<field>
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<name>MODE</name>
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<desc>Interrupt mode</desc>
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<position>0</position>
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<width>2</width>
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<enum>
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<name>DISABLED</name>
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<desc>Interrupt is disabled</desc>
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<value>0</value>
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</enum>
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<enum>
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<name>ENABLED</name>
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<desc>Interrupt is enabled</desc>
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<value>1</value>
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</enum>
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<enum>
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<name>NMI</name>
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<desc>Interrupt is non-maskable</desc>
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<value>2</value>
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</enum>
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</field>
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<field>
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<name>PRIORITY</name>
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<desc>Interrupt priority, lower values are more prioritized.</desc>
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<position>2</position>
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<width>2</width>
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</field>
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<field>
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<name>ARM_MODE</name>
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<desc>Select between ARM's FIQ and IRQ mode</desc>
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<position>4</position>
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<width>1</width>
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<enum>
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<name>IRQ</name>
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<value>0</value>
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</enum>
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<enum>
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<name>FIQ</name>
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<value>1</value>
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</enum>
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</field>
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<variant>
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<type>set</type>
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<offset>0x4</offset>
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</variant>
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</register>
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In this example, the 8-bit registers has three fields:
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- MODE(1:0): it has three named values DISABLED(0), ENABLED(1) and NMI(2)
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- PRIORITY(2:1): it has no named values
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- ARM_MODE(3): it has two named values IRQ(0) and FIQ(1)
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1.5) Register inheritance
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-------------------------
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The node hierarchy specifies instances, that is pairs of (path,address),
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and the register description describes the internal of a register. The placement
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of the register descriptions in the node hierarchy will specify which registers
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can be found at each address. More precisely, if a node contains a register
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description, it means that this node's and all sub-nodes' instances are registers
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following the description. It is forbidden for a node to contain a register
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description if one of its parents already contains one. The example below
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will make this concept clearer (for readability, we omitted some of the tags):
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<node>
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<name>dma</name>
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<instance><name>DMAC</name><address>0x80000000</address></instance>
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<node>
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<instance><name>PCM_CHAN</name><address>0x0</address></instance>
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<instance><name>I2C_CHAN</name><address>0x10</address></instance>
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<register><!--- blabla --></register>
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<node>
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<name>sct</name>
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<instance><name>SET</name><address>0x4</address></instance>
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<instance><name>CLR</name><address>0x8</address></instance>
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<instance><name>TOG</name><address>0xC</address></instance>
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</node>
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</node>
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</node>
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This example describes one register (let's call it blabla) and 9 instances:
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- DMAC at 0x80000000, no register
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- DMAC.PCM_CHAN at 0x80000000, register blabla
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- DMAC.PCM_CHAN.SET at 0x80000004, register blabla
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- DMAC.PCM_CHAN.CLR at 0x80000008, register blabla
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- DMAC.PCM_CHAN.TOG at 0x8000000C, register blabla
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- DMAC.I2C_CHAN at 0x80000010, register blabla
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- DMAC.I2C_CHAN.SET at 0x80000014, register blabla
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- DMAC.I2C_CHAN.CLR at 0x80000018, register blabla
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- DMAC.I2C_CHAN.TOG at 0x8000001C, register blabla
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1.6) Soc description
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--------------------
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The description file must also specify some information about the system-on-chip
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itself. The entire description, including nodes, is contained in a "soc" tag
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which must at least specify the soc name. It can optionally specify the title
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and description, as well as the author(s) of the description, the ISA and
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the version.
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<soc>
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<name>vsoc</name>
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<title>Virtual SOC</title>
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<desc>Virtual SoC is a nice and powerful chip.</desc>
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<author>Amaury Pouly</author>
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<isa>ARM</isa>
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<version>0.5</version>
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<!-- put nodes below -->
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</soc>
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2) Specification
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----------------
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Root
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----
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As any XML document, the content of the file should be enclosed in a "xml" tag.
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The root element must be "soc" tag.
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Example:
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<?xml version="1.0"?>
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<!-- desc -->
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</xml>
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Element: soc
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------------
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It must contain the following tags:
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- name: name of soc, only made of alphanumerical characters
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It can contain at most one of each of the following tags:
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- title: one line description of the soc
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- desc: free form description of the soc
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- isa: instruction set assembly
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- version: version of the description
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It can contain any number of the following tags:
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- author: author of the description
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- node: node description
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Element: node
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-------------
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It must contain the following tags:
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- name: name of node, only made of alphanumerical characters
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It can contain at most one of each of the following tags:
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- title: one line description of the node
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- desc: free form description of the node
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- register: register description
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It can contain any number of the following tags:
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- instance: author of the description
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- node: node description
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Element: instance
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-----------------
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It must contain the following tags:
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- name: name of instance, only made of alphanumerical characters
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It can contain at most one of each of the following tags:
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- title: one line description of the instance
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- desc: free form description of the instance
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- address: address for a single instance (non-negative number)
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- range: address range for multiple instances
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Note that address and range are mutually exclusive, and at least one of them
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must exists.
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Element: range
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--------------
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It must contain the following tags:
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- first: index of the first instance (non-negative number)
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- count: number of instances (positive number)
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It can contain at most one of each of the following tags:
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- base: base address (non-negative number)
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- stride: stride (number)
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- formula: free-form formula, must have a "variable" attribute
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Note that stride and formula are mutually exclusive, and at least one of them
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must exists. If stride is specified and base is omitted, it is taken to be 0.
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Element: register
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-----------------
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It can contain at most one of each of the following tags:
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- width: width in bits (positive number)
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It can contain any number of the following tags:
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- desc: free form description of the register
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- field: field description
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- variant: variant description
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Element: variant
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--------------
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It must contain the following tags:
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- type: name of type, only made of alphanumerical characters
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- offset: offset with respect to register address
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Element: field
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--------------
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It must contain the following tags:
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- name: name of field, only made of alphanumerical characters
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- position: least significant bit
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It can contain at most one of each of the following tags:
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- desc: free form description of the instance
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- width: width in bits
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It can contain any number of the following tags:
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- enum: enumerated value
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If the width is not specified, it is assumed to be 1.
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Element: enum
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-------------
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It must contain the following tags:
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- name: name of field, only made of alphanumerical characters
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- value: value (non-negative, must fit into the field's width)
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It can contain at most one of each of the following tags:
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- desc: free form description of the instance |