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Message-Id: <1287399186.6570.1044.camel@localhost>
Date: Mon, 18 Oct 2010 13:53:06 +0300
From: Carlos Chinea <carlos.chinea@...ia.com>
To: ext Peter Henn <peter_henn@....de>
Cc: Linux Kernel Development <linux-kernel@...r.kernel.org>,
"linux-omap@...r.kernel.org" <linux-omap@...r.kernel.org>
Subject: Re: [RFC PATCHv3 1/7] HSI: Introducing HSI framework
Hi Peter,
First, thanks for your comments :)
Mine follow...
On Sun, 2010-10-17 at 17:58 +0200, ext Peter Henn wrote:
> Hello Carlos,
>
> * Carlos Chinea <carlos.chinea@...ia.com> [101011 01:58]:
> > Adds HSI framework in to the linux kernel.
> >
> > High Speed Synchronous Serial Interface (HSI) is a
> > serial interface mainly used for connecting application
> > engines (APE) with cellular modem engines (CMT) in cellular
> > handsets.
> >
>
> ...
>
> > diff --git a/include/linux/hsi/hsi.h b/include/linux/hsi/hsi.h
> > new file mode 100644
> > index 0000000..54ae22a
> > --- /dev/null
> > +++ b/include/linux/hsi/hsi.h
> > @@ -0,0 +1,376 @@
> > +/*
> > + * hsi.h
> > + *
> > + * HSI core header file.
> > + *
> > + * Copyright (C) 2010 Nokia Corporation. All rights reserved.
> > + *
> > + * Contact: Carlos Chinea <carlos.chinea@...ia.com>
> > + *
> > + * This program is free software; you can redistribute it and/or
> > + * modify it under the terms of the GNU General Public License
> > + * version 2 as published by the Free Software Foundation.
> > + *
> > + * This program is distributed in the hope that it will be useful, but
> > + * WITHOUT ANY WARRANTY; without even the implied warranty of
> > + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
> > + * General Public License for more details.
> > + *
> > + * You should have received a copy of the GNU General Public License
> > + * along with this program; if not, write to the Free Software
> > + * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
> > + * 02110-1301 USA
> > + */
> > +
> > +#ifndef __LINUX_HSI_H__
> > +#define __LINUX_HSI_H__
> > +
> > +#include <linux/device.h>
> > +#include <linux/mutex.h>
> > +#include <linux/scatterlist.h>
> > +#include <linux/spinlock.h>
> > +#include <linux/list.h>
> > +
> > +/* HSI message ttype */
> > +#define HSI_MSG_READ 0
> > +#define HSI_MSG_WRITE 1
> > +
> > +/* HSI configuration values */
> > +#define HSI_MODE_STREAM 1
> > +#define HSI_MODE_FRAME 2
> > +#define HSI_FLOW_SYNC 0 /* Synchronized flow */
> > +#define HSI_FLOW_PIPE 1 /* Pipelined flow */
> > +#define HSI_ARB_RR 0 /* Round-robin arbitration */
> > +#define HSI_ARB_PRIO 1 /* Channel priority arbitration */
> > +
> > +#define HSI_MAX_CHANNELS 16
> > +
> > +/* HSI message status codes */
> > +enum {
> > + HSI_STATUS_COMPLETED, /* Message transfer is completed */
> > + HSI_STATUS_PENDING, /* Message pending to be read/write (POLL) */
> > + HSI_STATUS_PROCEEDING, /* Message transfer is ongoing */
> > + HSI_STATUS_QUEUED, /* Message waiting to be served */
> > + HSI_STATUS_ERROR, /* Error when message transfer was ongoing */
> > +};
> > +
> > +/* HSI port event codes */
> > +enum {
> > + HSI_EVENT_START_RX,
> > + HSI_EVENT_STOP_RX,
> > +};
> > +
> > +/**
> > + * struct hsi_config - Configuration for RX/TX HSI modules
> > + * @mode: Bit transmission mode (STREAM or FRAME)
> > + * @flow: Flow type (SYNCHRONIZED or PIPELINE)
> > + * @channels: Number of channels to use [1..16]
> > + * @speed: Max bit transmission speed (Kbit/s)
> > + * @arb_mode: Arbitration mode for TX frame (Round robin, priority)
> > + */
> > +struct hsi_config {
> > + unsigned int mode;
> > + unsigned int flow;
> > + unsigned int channels;
> > + unsigned int speed;
> > + unsigned int arb_mode; /* TX only */
> > +};
> > +
>
> Enums for "mode" and "flow"!
> Does the flow control be really a TX link property?
Hmm, yep it does not. I'll fix that.
> In RX direction a speed range helps changing the baudrate on the fly.
Clients just tell which is the TX max bit rate allowed.
In the case of TX the HW driver is allowed to change the speed from the maximum to the HW minimum.
In the case of RX the HW driver has to be able to handle that TX speed from the transmitter.
> A configuration flag for wakeup is missing, which defines the wakeup
> either GPIO or Ready line controlled.
This is just tied to the HW controller, it is internal data that can be
passed to HW driver through other ways.
Clients can only set HW configuration values that affects directly their
protocol behavior.
> A maximum RX frame burst counter value for each channel is missing.
Again tied to the HW driver.
> A TX send priority for each channel is possibly missing, too.
>
Do you have a HW implementing that kind of feature ? And also does
any protocol make direct use of that feature, meaning it changes the
behavior of the protocol ?
If the answers are yes, I am willing to add support for that, otherwise
I will wait until someone really needs it. Please note the current
ARB_PRIO value means that channel 0 has the highest priority and
MAX_CHANNEL the lowest.
> TX and RX initial port properties AKA config could be combined e.g.:
It is a matter of taste, and with the tx flow change the memory
footprint will be the same.
> struct hsi_port_properties {
> __u16 tx_ch_count; /* required number of TX channels */
> __u16 rx_ch_count; /* required number of RX channels */
> __u32 tx_speed; /* TX speed in HZ */
> __u32 rx_min_speed; /* RX min. speed in HZ */
> __u32 rx_max_speed; /* RX max. speed in HZ */
> enum hsi_transfer_mode tx_transfer_mode;
> enum hsi_transfer_mode rx_transfer_mode;
> enum hsi_flow_ctrl_mode flow_ctrl_mode; /* only need for RX */
> enum hsi_arb_mode arb_mode; /* only need for TX */
> bool tx_wakeup_mode; /* true: wakeup line ... */
> bool rx_wakeup_mode; /* ... false: ready line */
> };
>
> Example for channel:
> struct hsi_channel_properties {
> ...
> unsigned char prio; /* only need for TX */
> unsigned short frame_burst; /* only need for RX */
> }
>
> > +/**
> > + * struct hsi_board_info - HSI client board info
> > + * @name: Name for the HSI device
> > + * @hsi_id: HSI controller id where the client sits
> > + * @port: Port number in the controller where the client sits
> > + * @tx_cfg: HSI TX configuration
> > + * @rx_cfg: HSI RX configuration
> > + * @platform_data: Platform related data
> > + * @archdata: Architecture-dependent device data
> > + */
> > +struct hsi_board_info {
> > + const char *name;
> > + int hsi_id;
> > + unsigned int port;
> > + struct hsi_config tx_cfg;
> > + struct hsi_config rx_cfg;
> > + void *platform_data;
> > + struct dev_archdata *archdata;
> > +};
> > +
> > +#ifdef CONFIG_HSI
> > +extern int hsi_register_board_info(struct hsi_board_info const *info,
> > + unsigned int len);
> > +#else
> > +static inline int hsi_register_board_info(struct hsi_board_info const *info,
> > + unsigned int len)
> > +{
> > + return 0;
> > +}
> > +#endif
> > +
> > +/**
> > + * struct hsi_client - HSI client attached to an HSI port
> > + * @device: Driver model representation of the device
> > + * @tx_cfg: HSI TX configuration
> > + * @rx_cfg: HSI RX configuration
> > + * @hsi_start_rx: Called after incoming wake line goes high
> > + * @hsi_stop_rx: Called after incoming wake line goes low
> > + */
> > +struct hsi_client {
> > + struct device device;
> > + struct hsi_config tx_cfg;
> > + struct hsi_config rx_cfg;
> > + void (*hsi_start_rx)(struct hsi_client *cl);
> > + void (*hsi_stop_rx)(struct hsi_client *cl);
> > + /* private: */
> > + unsigned int pclaimed:1;
> > + struct list_head link;
> > +};
> > +
> > +#define to_hsi_client(dev) container_of(dev, struct hsi_client, device)
> > +
> > +static inline void hsi_client_set_drvdata(struct hsi_client *cl, void *data)
> > +{
> > + dev_set_drvdata(&cl->device, data);
> > +}
> > +
> > +static inline void *hsi_client_drvdata(struct hsi_client *cl)
> > +{
> > + return dev_get_drvdata(&cl->device);
> > +}
> > +
> > +/**
> > + * struct hsi_client_driver - Driver associated to an HSI client
> > + * @driver: Driver model representation of the driver
> > + */
> > +struct hsi_client_driver {
> > + struct device_driver driver;
> > +};
>
> Either using here direct "struct device_driver" or supporting an own
> hsi_probe, hsi_remove called from the framework, example:
>
> struct hsi_client_driver {
> const char *name;
> int (*probe) (struct hsi_client *);
> void (*disconnect) (struct hsi_client *);
> int (*suspend) (struct hsi_client *, pm_message_t);
> int (*resume) (struct hsi_client *);
> int (*event) (struct hsi_client *, u32 hsi_event);
>
> struct device_driver driver;
> };
Hmm, I will keep it as it is. No need to have currently custom probe()/
remove(). They will just be a wrap up. Having the device_driver wrap
like this forces the clients to register using
hsi_register_client_driver instead of allowing them to use also the
device_register() directly which will be wrong as they will not be tied
to the HSI bus.
> #define to_hsi_client_driver(d) \
> container_of(d, struct hsi_client_driver, driver)
>
Ok for the cosmetic change.
>
> > +
> > +#define to_hsi_client_driver(drv) container_of(drv, struct hsi_client_driver,\
> > + driver)
> > +
> > +int hsi_register_client_driver(struct hsi_client_driver *drv);
> > +
> > +static inline void hsi_unregister_client_driver(struct hsi_client_driver *drv)
> > +{
> > + driver_unregister(&drv->driver);
> > +}
> > +
> > +/**
> > + * struct hsi_msg - HSI message descriptor
> > + * @link: Free to use by the current descriptor owner
> > + * @cl: HSI device client that issues the transfer
> > + * @sgt: Head of the scatterlist array
> > + * @context: Client context data associated to the transfer
> > + * @complete: Transfer completion callback
> > + * @destructor: Destructor to free resources when flushing
> > + * @status: Status of the transfer when completed
> > + * @actual_len: Actual length of data transfered on completion
> > + * @channel: Channel were to TX/RX the message
> > + * @ttype: Transfer type (TX if set, RX otherwise)
> > + * @break_frame: if true HSI will send/receive a break frame (FRAME MODE)
> > + */
> > +struct hsi_msg {
> > + struct list_head link;
> > + struct hsi_client *cl;
> > + struct sg_table sgt;
> > + void *context;
> > +
> > + void (*complete)(struct hsi_msg *msg);
> > + void (*destructor)(struct hsi_msg *msg);
> > +
> > + int status;
> > + unsigned int actual_len;
> > + unsigned int channel;
> > + unsigned int ttype:1;
> > + unsigned int break_frame:1;
> > +};
>
> Either HSI transfer data or that break "1 bit message".
>
And that's how it works. The omap_ssi driver works exactly like that.
Maybe some extra documentation explaining this is needed.
> Normally a break affects all HSI channels of a HSI link and is planned
> to be used as an error indication of the HSI link. It could be a
> special HSI port initialization/reset/flush or setup property.
>
Yes but yet again the client wants to send/receive a frame. It is just
that turns to be a special one that only the HW can generate.
So I prefer to keep that on the HSI sending/receiving API.
>
> > +
> > +struct hsi_msg *hsi_alloc_msg(unsigned int n_frag, gfp_t flags);
> > +void hsi_free_msg(struct hsi_msg *msg);
> > +
> > +/**
> > + * struct hsi_port - HSI port device
> > + * @device: Driver model representation of the device
> > + * @tx_cfg: Current TX path configuration
> > + * @rx_cfg: Current RX path configuration
> > + * @num: Port number
> > + * @shared: Set when port can be shared by different clients
> > + * @claimed: Reference count of clients which claimed the port
> > + * @lock: Serialize port claim
> > + * @async: Asynchronous transfer callback
> > + * @setup: Callback to set the HSI client configuration
> > + * @flush: Callback to clean the HW state and destroy all pending transfers
> > + * @start_tx: Callback to inform that a client wants to TX data
> > + * @stop_tx: Callback to inform that a client no longer wishes to TX data
> > + * @release: Callback to inform that a client no longer uses the port
> > + * @clients: List of hsi_clients using the port.
> > + * @clock: Lock to serialize access to the clients list.
> > + */
> > +struct hsi_port {
> > + struct device device;
> > + struct hsi_config tx_cfg;
> > + struct hsi_config rx_cfg;
> > + unsigned int num;
> > + unsigned int shared:1;
> > + int claimed;
> > + struct mutex lock;
> > + int (*async)(struct hsi_msg *msg);
> > + int (*setup)(struct hsi_client *cl);
>
> A synchronous call makes problems using a HSI-USB dongle like the
> Asamalab with its delayed transaction over USB.
I expect hsi_setup to be called in process context, therefore being able
to block. So in that case, the driver can wait for the transaction to
succeed before returning. Maybe some extra comments, about which
interfaces must be called in process context, are needed.
> Please add an
> completion callback here.
>
> > + int (*flush)(struct hsi_client *cl);
>
> Name "flush" could be unclear, if it is indeed a "port reset".
>
I'll give a thought on that.
> > + int (*start_tx)(struct hsi_client *cl);
> > + int (*stop_tx)(struct hsi_client *cl);
> > + int (*release)(struct hsi_client *cl);
> > + struct list_head clients;
> > + spinlock_t clock;
> > +};
>
> The number of available DMA engines helps a link layer,
> if (DMA_engines < parallel_channel_endpoint_conections_via_DMA)
>
Hmm, the whole idea here is that clients are not bother about DMAs. They
just sent a request and it is the HW driver which decides what to use
for the transfer. In the case of not having enough DMA channels
available, the HW driver can just fall back to PIO transfers (omap_ssi
does that) or just hold the request in its internal queue/s until DMA
resources are available.
> Something like that filled up from the HCD and given by the registration
> call:
> struct hsi_hcd_limits {
> unsigned int tx_max_ch_bits;
> unsigned int rx_max_ch_bits;
> unsigned int tx_min_speed;
> unsigned int tx_max_speed;
> unsigned int rx_min_speed;
> unsigned int rx_max_speed;
> unsigned int max_burst_jobs;
> unsigned int tx_wakeup_support:1;
> unsigned int rx_wakeup_support:1;
> unsigned int tx_loopback_support:1;
> };
>
>
> > +
> > +#define to_hsi_port(dev) container_of(dev, struct hsi_port, device)
> > +#define hsi_get_port(cl) to_hsi_port((cl)->device.parent)
> > +
> > +void hsi_event(struct hsi_port *port, unsigned int event);
> > +int hsi_claim_port(struct hsi_client *cl, unsigned int share);
> > +void hsi_release_port(struct hsi_client *cl);
> > +
> > +static inline int hsi_port_claimed(struct hsi_client *cl)
> > +{
> > + return cl->pclaimed;
> > +}
> > +
> > +static inline void hsi_port_set_drvdata(struct hsi_port *port, void *data)
> > +{
> > + dev_set_drvdata(&port->device, data);
> > +}
> > +
> > +static inline void *hsi_port_drvdata(struct hsi_port *port)
> > +{
> > + return dev_get_drvdata(&port->device);
> > +}
> > +
> > +/**
> > + * struct hsi_controller - HSI controller device
> > + * @device: Driver model representation of the device
> > + * @id: HSI controller ID
> > + * @num_ports: Number of ports in the HSI controller
> > + * @port: Array of HSI ports
> > + */
> > +struct hsi_controller {
> > + struct device device;
>
> Device is only needed for platform device. PCIe or USB related
> controller would have their own device, like in USB-core in the hcd.c
>
Hmmm no. It is needed. The device is not tied to the platform bus is
tied to the HSI bus. In the case of USB , it is expected that
registration of the HSI controller device is done in the probe()
function of the usb_driver. This works pretty much the same also for the
platform bus (see omap_ssi) and others.
> > + int id;
> > + unsigned int num_ports;
> > + struct hsi_port *port;
> > +};
> > +
> > +#define to_hsi_controller(dev) container_of(dev, struct hsi_controller, device)
> > +
> > +struct hsi_controller *hsi_alloc_controller(unsigned int n_ports, gfp_t flags);
> > +void hsi_free_controller(struct hsi_controller *hsi);
> > +int hsi_register_controller(struct hsi_controller *hsi);
> > +void hsi_unregister_controller(struct hsi_controller *hsi);
> > +
> > +static inline void hsi_controller_set_drvdata(struct hsi_controller *hsi,
> > + void *data)
> > +{
> > + dev_set_drvdata(&hsi->device, data);
> > +}
> > +
> > +static inline void *hsi_controller_drvdata(struct hsi_controller *hsi)
> > +{
> > + return dev_get_drvdata(&hsi->device);
> > +}
> > +
> > +static inline struct hsi_port *hsi_find_port_num(struct hsi_controller *hsi,
> > + unsigned int num)
> > +{
> > + return (num < hsi->num_ports) ? &hsi->port[num] : NULL;
> > +}
> > +
> > +/*
> > + * API for HSI clients
> > + */
> > +int hsi_async(struct hsi_client *cl, struct hsi_msg *msg);
> > +
> > +/**
> > + * hsi_setup - Configure the client's port
> > + * @cl: Pointer to the HSI client
> > + *
> > + * When sharing ports, clients should either relay on a single
> > + * client setup or have the same setup for all of them.
> > + *
> > + * Return -errno on failure, 0 on success
> > + */
> > +static inline int hsi_setup(struct hsi_client *cl)
> > +{
> > + if (!hsi_port_claimed(cl))
> > + return -EACCES;
> > + return hsi_get_port(cl)->setup(cl);
> > +}
> > +
> > +/**
> > + * hsi_flush - Flush all pending transactions on the client's port
> > + * @cl: Pointer to the HSI client
> > + *
> > + * This function will destroy all pending hsi_msg in the port and reset
> > + * the HW port so it is ready to receive and transmit from a clean state.
> > + *
> > + * Return -errno on failure, 0 on success
> > + */
> > +static inline int hsi_flush(struct hsi_client *cl)
> > +{
> > + if (!hsi_port_claimed(cl))
> > + return -EACCES;
> > + return hsi_get_port(cl)->flush(cl);
> > +}
>
> Also here "hsi_port_reset" would be more self-explanatory than hsi_flush.
Well, as I said I will have a look to this, but reset can also be
understood that you reset the whole port (=> reseting also the
configuration to the default HW values) and does not what this function
does. It is just destroying all pending request and flush all the
internal buffers, leaving the port in a clean state ready to
send/receive more frames with the same configuration.
> Regards,
>
> Peter
>
Br,
Carlos
--
Carlos Chinea <carlos.chinea@...ia.com>
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