2010-06-29 15:08:21 +08:00
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- CAIF SPI porting -
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- CAIF SPI basics:
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Running CAIF over SPI needs some extra setup, owing to the nature of SPI.
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Two extra GPIOs have been added in order to negotiate the transfers
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between the master and the slave. The minimum requirement for running
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CAIF over SPI is a SPI slave chip and two GPIOs (more details below).
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Please note that running as a slave implies that you need to keep up
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with the master clock. An overrun or underrun event is fatal.
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- CAIF SPI framework:
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To make porting as easy as possible, the CAIF SPI has been divided in
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two parts. The first part (called the interface part) deals with all
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generic functionality such as length framing, SPI frame negotiation
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and SPI frame delivery and transmission. The other part is the CAIF
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SPI slave device part, which is the module that you have to write if
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you want to run SPI CAIF on a new hardware. This part takes care of
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the physical hardware, both with regard to SPI and to GPIOs.
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- Implementing a CAIF SPI device:
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- Functionality provided by the CAIF SPI slave device:
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In order to implement a SPI device you will, as a minimum,
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need to implement the following
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functions:
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int (*init_xfer) (struct cfspi_xfer * xfer, struct cfspi_dev *dev):
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This function is called by the CAIF SPI interface to give
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you a chance to set up your hardware to be ready to receive
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a stream of data from the master. The xfer structure contains
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tree-wide: fix comment/printk typos
"gadget", "through", "command", "maintain", "maintain", "controller", "address",
"between", "initiali[zs]e", "instead", "function", "select", "already",
"equal", "access", "management", "hierarchy", "registration", "interest",
"relative", "memory", "offset", "already",
Signed-off-by: Uwe Kleine-König <u.kleine-koenig@pengutronix.de>
Signed-off-by: Jiri Kosina <jkosina@suse.cz>
2010-11-02 03:38:34 +08:00
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both physical and logical addresses, as well as the total length
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2010-06-29 15:08:21 +08:00
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of the transfer in both directions.The dev parameter can be used
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to map to different CAIF SPI slave devices.
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void (*sig_xfer) (bool xfer, struct cfspi_dev *dev):
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This function is called by the CAIF SPI interface when the output
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(SPI_INT) GPIO needs to change state. The boolean value of the xfer
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variable indicates whether the GPIO should be asserted (HIGH) or
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deasserted (LOW). The dev parameter can be used to map to different CAIF
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SPI slave devices.
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- Functionality provided by the CAIF SPI interface:
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void (*ss_cb) (bool assert, struct cfspi_ifc *ifc);
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This function is called by the CAIF SPI slave device in order to
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signal a change of state of the input GPIO (SS) to the interface.
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Only active edges are mandatory to be reported.
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This function can be called from IRQ context (recommended in order
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not to introduce latency). The ifc parameter should be the pointer
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returned from the platform probe function in the SPI device structure.
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void (*xfer_done_cb) (struct cfspi_ifc *ifc);
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This function is called by the CAIF SPI slave device in order to
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report that a transfer is completed. This function should only be
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called once both the transmission and the reception are completed.
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This function can be called from IRQ context (recommended in order
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not to introduce latency). The ifc parameter should be the pointer
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returned from the platform probe function in the SPI device structure.
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- Connecting the bits and pieces:
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- Filling in the SPI slave device structure:
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Connect the necessary callback functions.
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Indicate clock speed (used to calculate toggle delays).
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Chose a suitable name (helps debugging if you use several CAIF
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SPI slave devices).
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Assign your private data (can be used to map to your structure).
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- Filling in the SPI slave platform device structure:
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Add name of driver to connect to ("cfspi_sspi").
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Assign the SPI slave device structure as platform data.
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- Padding:
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In order to optimize throughput, a number of SPI padding options are provided.
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Padding can be enabled independently for uplink and downlink transfers.
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Padding can be enabled for the head, the tail and for the total frame size.
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The padding needs to be correctly configured on both sides of the link.
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The padding can be changed via module parameters in cfspi_sspi.c or via
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the sysfs directory of the cfspi_sspi driver (before device registration).
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- CAIF SPI device template:
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/*
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* Copyright (C) ST-Ericsson AB 2010
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* Author: Daniel Martensson / Daniel.Martensson@stericsson.com
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* License terms: GNU General Public License (GPL), version 2.
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*
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*/
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#include <linux/init.h>
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#include <linux/module.h>
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#include <linux/device.h>
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#include <linux/wait.h>
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#include <linux/interrupt.h>
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#include <linux/dma-mapping.h>
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#include <net/caif/caif_spi.h>
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MODULE_LICENSE("GPL");
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struct sspi_struct {
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struct cfspi_dev sdev;
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struct cfspi_xfer *xfer;
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};
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static struct sspi_struct slave;
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static struct platform_device slave_device;
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static irqreturn_t sspi_irq(int irq, void *arg)
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{
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/* You only need to trigger on an edge to the active state of the
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* SS signal. Once a edge is detected, the ss_cb() function should be
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* called with the parameter assert set to true. It is OK
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* (and even advised) to call the ss_cb() function in IRQ context in
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* order not to add any delay. */
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return IRQ_HANDLED;
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}
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static void sspi_complete(void *context)
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{
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/* Normally the DMA or the SPI framework will call you back
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* in something similar to this. The only thing you need to
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* do is to call the xfer_done_cb() function, providing the pointer
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* to the CAIF SPI interface. It is OK to call this function
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* from IRQ context. */
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}
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static int sspi_init_xfer(struct cfspi_xfer *xfer, struct cfspi_dev *dev)
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{
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/* Store transfer info. For a normal implementation you should
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* set up your DMA here and make sure that you are ready to
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* receive the data from the master SPI. */
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struct sspi_struct *sspi = (struct sspi_struct *)dev->priv;
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sspi->xfer = xfer;
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return 0;
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}
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void sspi_sig_xfer(bool xfer, struct cfspi_dev *dev)
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{
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/* If xfer is true then you should assert the SPI_INT to indicate to
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* the master that you are ready to recieve the data from the master
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* SPI. If xfer is false then you should de-assert SPI_INT to indicate
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* that the transfer is done.
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*/
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struct sspi_struct *sspi = (struct sspi_struct *)dev->priv;
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}
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static void sspi_release(struct device *dev)
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{
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/*
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* Here you should release your SPI device resources.
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*/
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}
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static int __init sspi_init(void)
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{
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/* Here you should initialize your SPI device by providing the
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* necessary functions, clock speed, name and private data. Once
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* done, you can register your device with the
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* platform_device_register() function. This function will return
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* with the CAIF SPI interface initialized. This is probably also
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* the place where you should set up your GPIOs, interrupts and SPI
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* resources. */
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int res = 0;
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/* Initialize slave device. */
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slave.sdev.init_xfer = sspi_init_xfer;
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slave.sdev.sig_xfer = sspi_sig_xfer;
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slave.sdev.clk_mhz = 13;
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slave.sdev.priv = &slave;
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slave.sdev.name = "spi_sspi";
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slave_device.dev.release = sspi_release;
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/* Initialize platform device. */
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slave_device.name = "cfspi_sspi";
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slave_device.dev.platform_data = &slave.sdev;
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/* Register platform device. */
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res = platform_device_register(&slave_device);
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if (res) {
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printk(KERN_WARNING "sspi_init: failed to register dev.\n");
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return -ENODEV;
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}
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return res;
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}
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static void __exit sspi_exit(void)
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{
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platform_device_del(&slave_device);
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}
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module_init(sspi_init);
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module_exit(sspi_exit);
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