/* Copyright (c) 2011-2015, The Linux Foundation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only 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. */ #ifndef _LINUX_SLIMBUS_H #define _LINUX_SLIMBUS_H #include #include #include #include /* Interfaces between SLIMbus manager drivers and SLIMbus infrastructure. */ extern struct bus_type slimbus_type; /* Standard values per SLIMbus spec needed by controllers and devices */ #define SLIM_CL_PER_SUPERFRAME 6144 #define SLIM_CL_PER_SUPERFRAME_DIV8 (SLIM_CL_PER_SUPERFRAME >> 3) #define SLIM_MAX_TXNS 256 #define SLIM_MAX_CLK_GEAR 10 #define SLIM_MIN_CLK_GEAR 1 #define SLIM_CL_PER_SL 4 #define SLIM_SL_PER_SUPERFRAME (SLIM_CL_PER_SUPERFRAME >> 2) #define SLIM_FRM_SLOTS_PER_SUPERFRAME 16 #define SLIM_GDE_SLOTS_PER_SUPERFRAME 2 /* * SLIMbus message types. Related to interpretation of message code. * Values are defined in Table 32 (slimbus spec 1.01.01) */ #define SLIM_MSG_MT_CORE 0x0 #define SLIM_MSG_MT_DEST_REFERRED_CLASS 0x1 #define SLIM_MSG_MT_DEST_REFERRED_USER 0x2 #define SLIM_MSG_MT_SRC_REFERRED_CLASS 0x5 #define SLIM_MSG_MT_SRC_REFERRED_USER 0x6 /* * SLIMbus core type Message Codes. * Values are defined in Table 65 (slimbus spec 1.01.01) */ /* Device management messages */ #define SLIM_MSG_MC_REPORT_PRESENT 0x1 #define SLIM_MSG_MC_ASSIGN_LOGICAL_ADDRESS 0x2 #define SLIM_MSG_MC_RESET_DEVICE 0x4 #define SLIM_MSG_MC_CHANGE_LOGICAL_ADDRESS 0x8 #define SLIM_MSG_MC_CHANGE_ARBITRATION_PRIORITY 0x9 #define SLIM_MSG_MC_REQUEST_SELF_ANNOUNCEMENT 0xC #define SLIM_MSG_MC_REPORT_ABSENT 0xF /* Data channel management messages */ #define SLIM_MSG_MC_CONNECT_SOURCE 0x10 #define SLIM_MSG_MC_CONNECT_SINK 0x11 #define SLIM_MSG_MC_DISCONNECT_PORT 0x14 #define SLIM_MSG_MC_CHANGE_CONTENT 0x18 /* Information management messages */ #define SLIM_MSG_MC_REQUEST_INFORMATION 0x20 #define SLIM_MSG_MC_REQUEST_CLEAR_INFORMATION 0x21 #define SLIM_MSG_MC_REPLY_INFORMATION 0x24 #define SLIM_MSG_MC_CLEAR_INFORMATION 0x28 #define SLIM_MSG_MC_REPORT_INFORMATION 0x29 /* Reconfiguration messages */ #define SLIM_MSG_MC_BEGIN_RECONFIGURATION 0x40 #define SLIM_MSG_MC_NEXT_ACTIVE_FRAMER 0x44 #define SLIM_MSG_MC_NEXT_SUBFRAME_MODE 0x45 #define SLIM_MSG_MC_NEXT_CLOCK_GEAR 0x46 #define SLIM_MSG_MC_NEXT_ROOT_FREQUENCY 0x47 #define SLIM_MSG_MC_NEXT_PAUSE_CLOCK 0x4A #define SLIM_MSG_MC_NEXT_RESET_BUS 0x4B #define SLIM_MSG_MC_NEXT_SHUTDOWN_BUS 0x4C #define SLIM_MSG_MC_NEXT_DEFINE_CHANNEL 0x50 #define SLIM_MSG_MC_NEXT_DEFINE_CONTENT 0x51 #define SLIM_MSG_MC_NEXT_ACTIVATE_CHANNEL 0x54 #define SLIM_MSG_MC_NEXT_DEACTIVATE_CHANNEL 0x55 #define SLIM_MSG_MC_NEXT_REMOVE_CHANNEL 0x58 #define SLIM_MSG_MC_RECONFIGURE_NOW 0x5F /* * Clock pause flag to indicate that the reconfig message * corresponds to clock pause sequence */ #define SLIM_MSG_CLK_PAUSE_SEQ_FLG (1U << 8) /* Value management messages */ #define SLIM_MSG_MC_REQUEST_VALUE 0x60 #define SLIM_MSG_MC_REQUEST_CHANGE_VALUE 0x61 #define SLIM_MSG_MC_REPLY_VALUE 0x64 #define SLIM_MSG_MC_CHANGE_VALUE 0x68 /* Clock pause values defined in Table 66 (slimbus spec 1.01.01) */ #define SLIM_CLK_FAST 0 #define SLIM_CLK_CONST_PHASE 1 #define SLIM_CLK_UNSPECIFIED 2 struct slim_controller; struct slim_device; /* Destination type Values defined in Table 33 (slimbus spec 1.01.01) */ #define SLIM_MSG_DEST_LOGICALADDR 0 #define SLIM_MSG_DEST_ENUMADDR 1 #define SLIM_MSG_DEST_BROADCAST 3 /* * @start_offset: Specifies starting offset in information/value element map * @num_bytes: Can be 1, 2, 3, 4, 6, 8, 12, 16 per spec. This ensures that the * message will fit in the 40-byte message limit and the slicesize can be * compatible with values in table 21 (slimbus spec 1.01.01) * @comp: Completion to indicate end of message-transfer. Used if client wishes * to use the API asynchronously. */ struct slim_ele_access { u16 start_offset; u8 num_bytes; struct completion *comp; }; /* * struct slim_framer - Represents Slimbus framer. * Every controller may have multiple framers. * Manager is responsible for framer hand-over. * @e_addr: 6 byte Elemental address of the framer. * @rootfreq: Root Frequency at which the framer can run. This is maximum * frequency (clock gear 10 per slimbus spec) at which the bus can operate. * @superfreq: Superframes per root frequency. Every frame is 6144 cells (bits) * per slimbus specification. */ struct slim_framer { u8 e_addr[6]; int rootfreq; int superfreq; }; #define to_slim_framer(d) container_of(d, struct slim_framer, dev); /* * struct slim_addrt: slimbus address used internally by the slimbus framework. * @valid: If the device is still there or if the address can be reused. * @eaddr: 6-bytes-long elemental address * @laddr: It is possible that controller will set a predefined logical address * rather than the one assigned by framework. (i.e. logical address may * not be same as index into this table). This entry will store the * logical address value for this enumeration address. */ struct slim_addrt { bool valid; u8 eaddr[6]; u8 laddr; }; /* * struct slim_val_inf: slimbus value/information element transaction * @start_offset: Specifies starting offset in information/value element map * @num_bytes: number of bytes to be read/written * @wbuf: buffer if this transaction has 'write' component in it * @rbuf: buffer if this transaction has 'read' component in it */ struct slim_val_inf { u16 start_offset; u8 num_bytes; u8 *wbuf; u8 *rbuf; }; /* * struct slim_msg_txn: Message to be sent by the controller. * Linux framework uses this structure with drivers implementing controller. * This structure has packet header, payload and buffer to be filled (if any) * For the header information, refer to Table 34-36. * @rl: Header field. remaining length. * @mt: Header field. Message type. * @mc: Header field. LSB is message code for type mt. Framework will set MSB to * SLIM_MSG_CLK_PAUSE_SEQ_FLG in case "mc" in the reconfiguration sequence * is for pausing the clock. * @dt: Header field. Destination type. * @ec: Element size. Used for elemental access APIs. * @len: Length of payload. (excludes ec) * @tid: Transaction ID. Used for messages expecting response. * (e.g. relevant for mc = SLIM_MSG_MC_REQUEST_INFORMATION) * @la: Logical address of the device this message is going to. * (Not used when destination type is broadcast.) * @async: If this transaction is async * @rbuf: Buffer to be populated by controller when response is received. * @wbuf: Payload of the message. (e.g. channel number for DATA channel APIs) * @comp: Completion structure. Used by controller to notify response. * (Field is relevant when tid is used) */ struct slim_msg_txn { u8 rl; u8 mt; u16 mc; u8 dt; u16 ec; u8 len; u8 tid; u8 la; bool async; u8 *rbuf; const u8 *wbuf; struct completion *comp; }; /* Internal port state used by slimbus framework to manage data-ports */ enum slim_port_state { SLIM_P_FREE, SLIM_P_UNCFG, SLIM_P_CFG, }; /* * enum slim_port_req: Request port type by user through APIs to manage ports * User can request default, half-duplex or port to be used in multi-channel * configuration. Default indicates a simplex port. */ enum slim_port_req { SLIM_REQ_DEFAULT, SLIM_REQ_HALF_DUP, SLIM_REQ_MULTI_CH, }; /* * enum slim_port_opts: Port options requested. * User can request no configuration, packed data, and/or MSB aligned data port */ enum slim_port_opts { SLIM_OPT_NONE = 0, SLIM_OPT_NO_PACK = 1U, SLIM_OPT_ALIGN_MSB = 1U << 1, }; /* enum slim_port_flow: Port flow type (inbound/outbound). */ enum slim_port_flow { SLIM_SRC, SLIM_SINK, }; /* enum slim_port_err: Port errors */ enum slim_port_err { SLIM_P_INPROGRESS, SLIM_P_OVERFLOW, SLIM_P_UNDERFLOW, SLIM_P_DISCONNECT, SLIM_P_NOT_OWNED, }; /* * struct slim_port_cfg: Port config for the manager port * port_opts: port options (bit-map) for this port * watermark: watermark level set for this port */ struct slim_port_cfg { u32 port_opts; u32 watermark; }; /* * struct slim_port: Internal structure used by framework to manage ports * @err: Port error if any for this port. Refer to enum above. * @state: Port state. Refer to enum above. * @req: Port request for this port. * @cfg: Port configuration for this port. * @flow: Flow type of this port. * @ch: Channel association of this port. * @xcomp: Completion to indicate error, data transfer done event. * @ctrl: Controller to which this port belongs to. This is useful to associate * port with the SW since port hardware interrupts may only contain port * information. */ struct slim_port { enum slim_port_err err; enum slim_port_state state; enum slim_port_req req; struct slim_port_cfg cfg; enum slim_port_flow flow; struct slim_ch *ch; struct completion *xcomp; struct slim_controller *ctrl; }; /* * enum slim_ch_state: Channel state of a channel. * Channel transition happens from free-to-allocated-to-defined-to-pending- * active-to-active. * Once active, channel can be removed or suspended. Suspended channels are * still scheduled, but data transfer doesn't happen. * Removed channels are not deallocated until dealloc_ch API is used. * Deallocation reset channel state back to free. * Removed channels can be defined with different parameters. */ enum slim_ch_state { SLIM_CH_FREE, SLIM_CH_ALLOCATED, SLIM_CH_DEFINED, SLIM_CH_PENDING_ACTIVE, SLIM_CH_ACTIVE, SLIM_CH_SUSPENDED, SLIM_CH_PENDING_REMOVAL, }; /* * enum slim_ch_proto: Channel protocol used by the channel. * Hard Isochronous channel is not scheduled if current frequency doesn't allow * the channel to be run without flow-control. * Auto isochronous channel will be scheduled as hard-isochronous or push-pull * depending on current bus frequency. * Currently, Push-pull or async or extended channels are not supported. * For more details, refer to slimbus spec */ enum slim_ch_proto { SLIM_HARD_ISO, SLIM_AUTO_ISO, SLIM_PUSH, SLIM_PULL, SLIM_ASYNC_SMPLX, SLIM_ASYNC_HALF_DUP, SLIM_EXT_SMPLX, SLIM_EXT_HALF_DUP, }; /* * enum slim_ch_rate: Most commonly used frequency rate families. * Use 1HZ for push-pull transport. * 4KHz and 11.025KHz are most commonly used in audio applications. * Typically, slimbus runs at frequencies to support channels running at 4KHz * and/or 11.025KHz isochronously. */ enum slim_ch_rate { SLIM_RATE_1HZ, SLIM_RATE_4000HZ, SLIM_RATE_11025HZ, }; /* * enum slim_ch_coeff: Coefficient of a channel used internally by framework. * Coefficient is applicable to channels running isochronously. * Coefficient is calculated based on channel rate multiplier. * (If rate multiplier is power of 2, it's coeff.1 channel. Otherwise it's * coeff.3 channel. */ enum slim_ch_coeff { SLIM_COEFF_1, SLIM_COEFF_3, }; /* * enum slim_ch_control: Channel control. * Activate will schedule channel and/or group of channels in the TDM frame. * Suspend will keep the schedule but data-transfer won't happen. * Remove will remove the channel/group from the TDM frame. */ enum slim_ch_control { SLIM_CH_ACTIVATE, SLIM_CH_SUSPEND, SLIM_CH_REMOVE, }; /* enum slim_ch_dataf: Data format per table 60 from slimbus spec 1.01.01 */ enum slim_ch_dataf { SLIM_CH_DATAF_NOT_DEFINED = 0, SLIM_CH_DATAF_LPCM_AUDIO = 1, SLIM_CH_DATAF_IEC61937_COMP_AUDIO = 2, SLIM_CH_DATAF_PACKED_PDM_AUDIO = 3, }; /* enum slim_ch_auxf: Auxiliary field format per table 59 from slimbus spec */ enum slim_ch_auxf { SLIM_CH_AUXF_NOT_APPLICABLE = 0, SLIM_CH_AUXF_ZCUV_TUNNEL_IEC60958 = 1, SLIM_CH_USER_DEFINED = 0xF, }; /* * struct slim_ch: Channel structure used externally by users of channel APIs. * @prot: Desired slimbus protocol. * @baser: Desired base rate. (Typical isochronous rates are: 4KHz, or 11.025KHz * @dataf: Data format. * @auxf: Auxiliary format. * @ratem: Channel rate multiplier. (e.g. 48KHz channel will have 4KHz base rate * and 12 as rate multiplier. * @sampleszbits: Sample size in bits. */ struct slim_ch { enum slim_ch_proto prot; enum slim_ch_rate baser; enum slim_ch_dataf dataf; enum slim_ch_auxf auxf; u32 ratem; u32 sampleszbits; }; /* * struct slim_ich: Internal channel structure used by slimbus framework. * @prop: structure passed by the client. * @coeff: Coefficient of this channel. * @state: Current state of the channel. * @nextgrp: If this channel is part of group, next channel in this group. * @prrate: Presence rate of this channel (per table 62 of the spec) * @offset: Offset of this channel in the superframe. * @newoff: Used during scheduling to hold temporary new offset until the offset * is accepted/rejected by slimbus reconfiguration. * @interval: Interval of this channel per superframe. * @newintr: Used during scheduling to new interval temporarily. * @seglen: Segment length of this channel. * @rootexp: root exponent of this channel. Rate can be found using rootexp and * coefficient. Used during scheduling. * @srch: Source port used by this channel. * @sinkh: Sink ports used by this channel. * @nsink: number of sink ports used by this channel. * @chan: Channel number sent on hardware lines for this channel. May not be * equal to array-index into chans if client requested to use number beyond * channel-array for the controller. * @ref: Reference number to keep track of how many clients (upto 2) are using * this channel. * @def: Used to keep track of how many times the channel definition is sent * to hardware and this will decide if channel-remove can be sent for the * channel. Channel definition may be sent upto twice (once per producer * and once per consumer). Channel removal should be sent only once to * avoid clients getting underflow/overflow errors. */ struct slim_ich { struct slim_ch prop; enum slim_ch_coeff coeff; enum slim_ch_state state; u16 nextgrp; u32 prrate; u32 offset; u32 newoff; u32 interval; u32 newintr; u32 seglen; u8 rootexp; u32 srch; u32 *sinkh; int nsink; u8 chan; int ref; int def; }; /* * struct slim_sched: Framework uses this structure internally for scheduling. * @chc3: Array of all active coeffient 3 channels. * @num_cc3: Number of active coeffient 3 channels. * @chc1: Array of all active coeffient 1 channels. * @num_cc1: Number of active coeffient 1 channels. * @subfrmcode: Current subframe-code used by TDM. This is decided based on * requested message bandwidth and current channels scheduled. * @usedslots: Slots used by all active channels. * @msgsl: Slots used by message-bandwidth. * @pending_msgsl: Used to store pending request of message bandwidth (in slots) * until the scheduling is accepted by reconfiguration. * @m_reconf: This mutex is held until current reconfiguration (data channel * scheduling, message bandwidth reservation) is done. Message APIs can * use the bus concurrently when this mutex is held since elemental access * messages can be sent on the bus when reconfiguration is in progress. * @slots: Used for debugging purposes to debug/verify current schedule in TDM. */ struct slim_sched { struct slim_ich **chc3; int num_cc3; struct slim_ich **chc1; int num_cc1; u32 subfrmcode; u32 usedslots; u32 msgsl; u32 pending_msgsl; struct mutex m_reconf; u8 *slots; }; /* * enum slim_clk_state: Slimbus controller's clock state used internally for * maintaining current clock state. * @SLIM_CLK_ACTIVE: Slimbus clock is active * @SLIM_CLK_PAUSE_FAILED: Slimbus controlled failed to go in clock pause. * Hardware-wise, this state is same as active but controller will wait on * completion before making transition to SLIM_CLK_ACTIVE in framework * @SLIM_CLK_ENTERING_PAUSE: Slimbus clock pause sequence is being sent on the * bus. If this succeeds, state changes to SLIM_CLK_PAUSED. If the * transition fails, state changes to SLIM_CLK_PAUSE_FAILED * @SLIM_CLK_PAUSED: Slimbus controller clock has paused. */ enum slim_clk_state { SLIM_CLK_ACTIVE, SLIM_CLK_ENTERING_PAUSE, SLIM_CLK_PAUSE_FAILED, SLIM_CLK_PAUSED, }; /* * struct slim_controller: Represents manager for a SlimBUS * (similar to 'master' on I2C) * @dev: Device interface to this driver * @nr: Board-specific number identifier for this controller/bus * @list: Link with other slimbus controllers * @name: Name for this controller * @clkgear: Current clock gear in which this bus is running * @min_cg: Minimum clock gear supported by this controller (default value: 1) * @max_cg: Maximum clock gear supported by this controller (default value: 10) * @clk_state: Controller's clock state from enum slim_clk_state * @pause_comp: Signals completion of clock pause sequence. This is useful when * client tries to call slimbus transaction when controller may be entering * clock pause. * @a_framer: Active framer which is clocking the bus managed by this controller * @m_ctrl: Mutex protecting controller data structures (ports, channels etc) * @addrt: Logical address table * @num_dev: Number of active slimbus slaves on this bus * @devs: List of devices on this controller * @wq: Workqueue per controller used to notify devices when they report present * @txnt: Table of transactions having transaction ID * @last_tid: size of the table txnt (can't grow beyond 256 since TID is 8-bits) * @ports: Ports associated with this controller * @nports: Number of ports supported by the controller * @chans: Channels associated with this controller * @nchans: Number of channels supported * @reserved: Reserved channels that controller wants to use internally * Clients will be assigned channel numbers after this number * @sched: scheduler structure used by the controller * @dev_released: completion used to signal when sysfs has released this * controller so that it can be deleted during shutdown * @xfer_msg: Transfer a message on this controller (this can be a broadcast * control/status message like data channel setup, or a unicast message * like value element read/write. * @set_laddr: Setup logical address at laddr for the slave with elemental * address e_addr. Drivers implementing controller will be expected to * send unicast message to this device with its logical address. * @allocbw: Controller can override default reconfiguration and channel * scheduling algorithm. * @get_laddr: It is possible that controller needs to set fixed logical * address table and get_laddr can be used in that case so that controller * can do this assignment. * @wakeup: This function pointer implements controller-specific procedure * to wake it up from clock-pause. Framework will call this to bring * the controller out of clock pause. * @alloc_port: Allocate a port and make it ready for data transfer. This is * called by framework to make sure controller can take necessary steps * to initialize its port * @dealloc_port: Counter-part of alloc_port. This is called by framework so * that controller can free resources associated with this port * @framer_handover: If this controller has multiple framers, this API will * be called to switch between framers if controller desires to change * the active framer. * @port_xfer: Called to schedule a transfer on port pn. iobuf is physical * address and the buffer may have to be DMA friendly since data channels * will be using data from this buffers without SW intervention. * @port_xfer_status: Called by framework when client calls get_xfer_status * API. Returns how much buffer is actually processed and the port * errors (e.g. overflow/underflow) if any. * @xfer_user_msg: Send user message to specified logical address. Underlying * controller has to support sending user messages. Returns error if any. * @xfer_bulk_wr: Send bulk of write messages to specified logical address. * Underlying controller has to support this. Typically useful to transfer * messages to download firmware, or messages where strict ordering for * slave is necessary */ struct slim_controller { struct device dev; unsigned int nr; struct list_head list; char name[SLIMBUS_NAME_SIZE]; int clkgear; int min_cg; int max_cg; enum slim_clk_state clk_state; struct completion pause_comp; struct slim_framer *a_framer; struct mutex m_ctrl; struct slim_addrt *addrt; u8 num_dev; struct list_head devs; struct workqueue_struct *wq; struct slim_msg_txn *txnt[SLIM_MAX_TXNS]; u8 last_tid; spinlock_t txn_lock; struct slim_port *ports; int nports; struct slim_ich *chans; int nchans; u8 reserved; struct slim_sched sched; struct completion dev_released; int (*xfer_msg)(struct slim_controller *ctrl, struct slim_msg_txn *txn); int (*set_laddr)(struct slim_controller *ctrl, const u8 *ea, u8 elen, u8 laddr); int (*allocbw)(struct slim_device *sb, int *subfrmc, int *clkgear); int (*get_laddr)(struct slim_controller *ctrl, const u8 *ea, u8 elen, u8 *laddr); int (*wakeup)(struct slim_controller *ctrl); int (*alloc_port)(struct slim_controller *ctrl, u8 port); void (*dealloc_port)(struct slim_controller *ctrl, u8 port); int (*framer_handover)(struct slim_controller *ctrl, struct slim_framer *new_framer); int (*port_xfer)(struct slim_controller *ctrl, u8 pn, phys_addr_t iobuf, u32 len, struct completion *comp); enum slim_port_err (*port_xfer_status)(struct slim_controller *ctr, u8 pn, phys_addr_t *done_buf, u32 *done_len); int (*xfer_user_msg)(struct slim_controller *ctrl, u8 la, u8 mt, u8 mc, struct slim_ele_access *msg, u8 *buf, u8 len); int (*xfer_bulk_wr)(struct slim_controller *ctrl, u8 la, u8 mt, u8 mc, struct slim_val_inf msgs[], int n, int (*comp_cb)(void *ctx, int err), void *ctx); }; #define to_slim_controller(d) container_of(d, struct slim_controller, dev) /* * struct slim_driver: Manage Slimbus generic/slave device driver * @probe: Binds this driver to a slimbus device. * @remove: Unbinds this driver from the slimbus device. * @shutdown: Standard shutdown callback used during powerdown/halt. * @suspend: Standard suspend callback used during system suspend * @resume: Standard resume callback used during system resume * @device_up: This callback is called when the device reports present and * gets a logical address assigned to it * @device_down: This callback is called when device reports absent, or the * bus goes down. Device will report present when bus is up and * device_up callback will be called again when that happens * @reset_device: This callback is called after framer is booted. * Driver should do the needful to reset the device, * so that device acquires sync and be operational. * @driver: Slimbus device drivers should initialize name and owner field of * this structure * @id_table: List of slimbus devices supported by this driver */ struct slim_driver { int (*probe)(struct slim_device *sldev); int (*remove)(struct slim_device *sldev); void (*shutdown)(struct slim_device *sldev); int (*suspend)(struct slim_device *sldev, pm_message_t pmesg); int (*resume)(struct slim_device *sldev); int (*device_up)(struct slim_device *sldev); int (*device_down) (struct slim_device *sldev); int (*reset_device) (struct slim_device *sldev); struct device_driver driver; const struct slim_device_id *id_table; }; #define to_slim_driver(d) container_of(d, struct slim_driver, driver) /* * struct slim_pending_ch: List of pending channels used by framework. * @chan: Channel number * @pending: list of channels */ struct slim_pending_ch { u8 chan; struct list_head pending; }; /* * Client/device handle (struct slim_device): * ------------------------------------------ * This is the client/device handle returned when a slimbus * device is registered with a controller. This structure can be provided * during register_board_info, or can be allocated using slim_add_device API. * Pointer to this structure is used by client-driver as a handle. * @dev: Driver model representation of the device. * @name: Name of driver to use with this device. * @e_addr: 6-byte elemental address of this device. * @driver: Device's driver. Pointer to access routines. * @ctrl: Slimbus controller managing the bus hosting this device. * @laddr: 1-byte Logical address of this device. * @reported: Flag to indicate whether this device reported present. The flag * is set when device reports present, and is reset when it reports * absent. This flag alongwith notified flag below is used to call * device_up, or device_down callbacks for driver of this device. * @mark_define: List of channels pending definition/activation. * @mark_suspend: List of channels pending suspend. * @mark_removal: List of channels pending removal. * @notified: Flag to indicate whether this device has been notified. The * device may report present multiple times, but should be notified only * first time it has reported present. * @dev_list: List of devices on a controller * @wd: Work structure associated with workqueue for presence notification * @sldev_reconf: Mutex to protect the pending data-channel lists. * @pending_msgsl: Message bandwidth reservation request by this client in * slots that's pending reconfiguration. * @cur_msgsl: Message bandwidth reserved by this client in slots. * These 3 lists are managed by framework. Lists are populated when client * calls channel control API without reconfig-flag set and the lists are * emptied when the reconfiguration is done by this client. */ struct slim_device { struct device dev; const char *name; u8 e_addr[6]; struct slim_driver *driver; struct slim_controller *ctrl; u8 laddr; bool reported; struct list_head mark_define; struct list_head mark_suspend; struct list_head mark_removal; bool notified; struct list_head dev_list; struct work_struct wd; struct mutex sldev_reconf; u32 pending_msgsl; u32 cur_msgsl; }; #define to_slim_device(d) container_of(d, struct slim_device, dev) /* * struct slim_boardinfo: Declare board info for Slimbus device bringup. * @bus_num: Controller number (bus) on which this device will sit. * @slim_slave: Device to be registered with slimbus. */ struct slim_boardinfo { int bus_num; struct slim_device *slim_slave; }; /* * slim_get_logical_addr: Return the logical address of a slimbus device. * @sb: client handle requesting the adddress. * @e_addr: Elemental address of the device. * @e_len: Length of e_addr * @laddr: output buffer to store the address * context: can sleep * -EINVAL is returned in case of invalid parameters, and -ENXIO is returned if * the device with this elemental address is not found. */ extern int slim_get_logical_addr(struct slim_device *sb, const u8 *e_addr, u8 e_len, u8 *laddr); /* Message APIs Unicast message APIs used by slimbus slave drivers */ /* * Message API access routines. * @sb: client handle requesting elemental message reads, writes. * @msg: Input structure for start-offset, number of bytes to read. * @rbuf: data buffer to be filled with values read. * @len: data buffer size * @wbuf: data buffer containing value/information to be written * context: can sleep * Returns: * -EINVAL: Invalid parameters * -ETIMEDOUT: If controller could not complete the request. This may happen if * the bus lines are not clocked, controller is not powered-on, slave with * given address is not enumerated/responding. */ extern int slim_request_val_element(struct slim_device *sb, struct slim_ele_access *msg, u8 *buf, u8 len); extern int slim_request_inf_element(struct slim_device *sb, struct slim_ele_access *msg, u8 *buf, u8 len); extern int slim_change_val_element(struct slim_device *sb, struct slim_ele_access *msg, const u8 *buf, u8 len); extern int slim_clear_inf_element(struct slim_device *sb, struct slim_ele_access *msg, u8 *buf, u8 len); extern int slim_request_change_val_element(struct slim_device *sb, struct slim_ele_access *msg, u8 *rbuf, const u8 *wbuf, u8 len); extern int slim_request_clear_inf_element(struct slim_device *sb, struct slim_ele_access *msg, u8 *rbuf, const u8 *wbuf, u8 len); /* * Broadcast message API: * call this API directly with sbdev = NULL. * For broadcast reads, make sure that buffers are big-enough to incorporate * replies from all logical addresses. * All controllers may not support broadcast */ extern int slim_xfer_msg(struct slim_controller *ctrl, struct slim_device *sbdev, struct slim_ele_access *msg, u16 mc, u8 *rbuf, const u8 *wbuf, u8 len); /* * User message: * slim_user_msg: Send user message that is interpreted by destination device * @sb: Client handle sending the message * @la: Destination device for this user message * @mt: Message Type (Soruce-referred, or Destination-referred) * @mc: Message Code * @msg: Message structure (start offset, number of bytes) to be sent * @buf: data buffer to be sent * @len: data buffer size in bytes */ extern int slim_user_msg(struct slim_device *sb, u8 la, u8 mt, u8 mc, struct slim_ele_access *msg, u8 *buf, u8 len); /* * Queue bulk of message writes: * slim_bulk_msg_write: Write bulk of messages (e.g. downloading FW) * @sb: Client handle sending these messages * @la: Destination device for these messages * @mt: Message Type * @mc: Message Code * @msgs: List of messages to be written in bulk * @n: Number of messages in the list * @cb: Callback if client needs this to be non-blocking * @ctx: Context for this callback * If supported by controller, this message list will be sent in bulk to the HW * If the client specifies this to be non-blocking, the callback will be * called from atomic context. */ extern int slim_bulk_msg_write(struct slim_device *sb, u8 mt, u8 mc, struct slim_val_inf msgs[], int n, int (*comp_cb)(void *ctx, int err), void *ctx); /* end of message apis */ /* Port management for manager device APIs */ /* * slim_alloc_mgrports: Allocate port on manager side. * @sb: device/client handle. * @req: Port request type. * @nports: Number of ports requested * @rh: output buffer to store the port handles * @hsz: size of buffer storing handles * context: can sleep * This port will be typically used by SW. e.g. client driver wants to receive * some data from audio codec HW using a data channel. * Port allocated using this API will be used to receive the data. * If half-duplex ports are requested, two adjacent ports are allocated for * 1 half-duplex port. So the handle-buffer size should be twice the number * of half-duplex ports to be allocated. * -EDQUOT is returned if all ports are in use. */ extern int slim_alloc_mgrports(struct slim_device *sb, enum slim_port_req req, int nports, u32 *rh, int hsz); /* Deallocate the port(s) allocated using the API above */ extern int slim_dealloc_mgrports(struct slim_device *sb, u32 *hdl, int hsz); /* * slim_config_mgrports: Configure manager side ports * @sb: device/client handle. * @ph: array of port handles for which this configuration is valid * @nports: Number of ports in ph * @cfg: configuration requested for port(s) * Configure port settings if they are different than the default ones. * Returns success if the config could be applied. Returns -EISCONN if the * port is in use */ extern int slim_config_mgrports(struct slim_device *sb, u32 *ph, int nports, struct slim_port_cfg *cfg); /* * slim_port_xfer: Schedule buffer to be transferred/received using port-handle. * @sb: client handle * @ph: port-handle * @iobuf: buffer to be transferred or populated * @len: buffer size. * @comp: completion signal to indicate transfer done or error. * context: can sleep * Returns number of bytes transferred/received if used synchronously. * Will return 0 if used asynchronously. * Client will call slim_port_get_xfer_status to get error and/or number of * bytes transferred if used asynchronously. */ extern int slim_port_xfer(struct slim_device *sb, u32 ph, phys_addr_t iobuf, u32 len, struct completion *comp); /* * slim_port_get_xfer_status: Poll for port transfers, or get transfer status * after completion is done. * @sb: client handle * @ph: port-handle * @done_buf: return pointer (iobuf from slim_port_xfer) which is processed. * @done_len: Number of bytes transferred. * This can be called when port_xfer complition is signalled. * The API will return port transfer error (underflow/overflow/disconnect) * and/or done_len will reflect number of bytes transferred. Note that * done_len may be valid even if port error (overflow/underflow) has happened. * e.g. If the transfer was scheduled with a few bytes to be transferred and * client has not supplied more data to be transferred, done_len will indicate * number of bytes transferred with underflow error. To avoid frequent underflow * errors, multiple transfers can be queued (e.g. ping-pong buffers) so that * channel has data to be transferred even if client is not ready to transfer * data all the time. done_buf will indicate address of the last buffer * processed from the multiple transfers. */ extern enum slim_port_err slim_port_get_xfer_status(struct slim_device *sb, u32 ph, phys_addr_t *done_buf, u32 *done_len); /* * slim_connect_src: Connect source port to channel. * @sb: client handle * @srch: source handle to be connected to this channel * @chanh: Channel with which the ports need to be associated with. * Per slimbus specification, a channel may have 1 source port. * Channel specified in chanh needs to be allocated first. * Returns -EALREADY if source is already configured for this channel. * Returns -ENOTCONN if channel is not allocated * Returns -EINVAL if invalid direction is specified for non-manager port, * or if the manager side port number is out of bounds, or in incorrect state */ extern int slim_connect_src(struct slim_device *sb, u32 srch, u16 chanh); /* * slim_connect_sink: Connect sink port(s) to channel. * @sb: client handle * @sinkh: sink handle(s) to be connected to this channel * @nsink: number of sinks * @chanh: Channel with which the ports need to be associated with. * Per slimbus specification, a channel may have multiple sink-ports. * Channel specified in chanh needs to be allocated first. * Returns -EALREADY if sink is already configured for this channel. * Returns -ENOTCONN if channel is not allocated * Returns -EINVAL if invalid parameters are passed, or invalid direction is * specified for non-manager port, or if the manager side port number is out of * bounds, or in incorrect state */ extern int slim_connect_sink(struct slim_device *sb, u32 *sinkh, int nsink, u16 chanh); /* * slim_disconnect_ports: Disconnect port(s) from channel * @sb: client handle * @ph: ports to be disconnected * @nph: number of ports. * Disconnects ports from a channel. */ extern int slim_disconnect_ports(struct slim_device *sb, u32 *ph, int nph); /* * slim_get_slaveport: Get slave port handle * @la: slave device logical address. * @idx: port index at slave * @rh: return handle * @flw: Flow type (source or destination) * This API only returns a slave port's representation as expected by slimbus * driver. This port is not managed by the slimbus driver. Caller is expected * to have visibility of this port since it's a device-port. */ extern int slim_get_slaveport(u8 la, int idx, u32 *rh, enum slim_port_flow flw); /* Channel functions. */ /* * slim_alloc_ch: Allocate a slimbus channel and return its handle. * @sb: client handle. * @chanh: return channel handle * Slimbus channels are limited to 256 per specification. * -EXFULL is returned if all channels are in use. * Although slimbus specification supports 256 channels, a controller may not * support that many channels. */ extern int slim_alloc_ch(struct slim_device *sb, u16 *chanh); /* * slim_query_ch: Get reference-counted handle for a channel number. Every * channel is reference counted by one as producer and the others as * consumer) * @sb: client handle * @chan: slimbus channel number * @chanh: return channel handle * If request channel number is not in use, it is allocated, and reference * count is set to one. If the channel was was already allocated, this API * will return handle to that channel and reference count is incremented. * -EXFULL is returned if all channels are in use */ extern int slim_query_ch(struct slim_device *sb, u8 chan, u16 *chanh); /* * slim_dealloc_ch: Deallocate channel allocated using the API above * -EISCONN is returned if the channel is tried to be deallocated without * being removed first. * -ENOTCONN is returned if deallocation is tried on a channel that's not * allocated. */ extern int slim_dealloc_ch(struct slim_device *sb, u16 chanh); /* * slim_define_ch: Define a channel.This API defines channel parameters for a * given channel. * @sb: client handle. * @prop: slim_ch structure with channel parameters desired to be used. * @chanh: list of channels to be defined. * @nchan: number of channels in a group (1 if grp is false) * @grp: Are the channels grouped * @grph: return group handle if grouping of channels is desired. * Channels can be grouped if multiple channels use same parameters * (e.g. 5.1 audio has 6 channels with same parameters. They will all be * grouped and given 1 handle for simplicity and avoid repeatedly calling * the API) * -EISCONN is returned if channel is already used with different parameters. * -ENXIO is returned if the channel is not yet allocated. */ extern int slim_define_ch(struct slim_device *sb, struct slim_ch *prop, u16 *chanh, u8 nchan, bool grp, u16 *grph); /* * slim_control_ch: Channel control API. * @sb: client handle * @grpchanh: group or channel handle to be controlled * @chctrl: Control command (activate/suspend/remove) * @commit: flag to indicate whether the control should take effect right-away. * This API activates, removes or suspends a channel (or group of channels) * grpchanh indicates the channel or group handle (returned by the define_ch * API). Reconfiguration may be time-consuming since it can change all other * active channel allocations on the bus, change in clock gear used by the * slimbus, and change in the control space width used for messaging. * commit makes sure that multiple channels can be activated/deactivated before * reconfiguration is started. * -EXFULL is returned if there is no space in TDM to reserve the bandwidth. * -EISCONN/-ENOTCONN is returned if the channel is already connected or not * yet defined. * -EINVAL is returned if individual control of a grouped-channel is attempted. */ extern int slim_control_ch(struct slim_device *sb, u16 grpchanh, enum slim_ch_control chctrl, bool commit); /* * slim_get_ch_state: Channel state. * This API returns the channel's state (active, suspended, inactive etc) */ extern enum slim_ch_state slim_get_ch_state(struct slim_device *sb, u16 chanh); /* * slim_reservemsg_bw: Request to reserve bandwidth for messages. * @sb: client handle * @bw_bps: message bandwidth in bits per second to be requested * @commit: indicates whether the reconfiguration needs to be acted upon. * This API call can be grouped with slim_control_ch API call with only one of * the APIs specifying the commit flag to avoid reconfiguration being called too * frequently. -EXFULL is returned if there is no space in TDM to reserve the * bandwidth. -EBUSY is returned if reconfiguration is requested, but a request * is already in progress. */ extern int slim_reservemsg_bw(struct slim_device *sb, u32 bw_bps, bool commit); /* * slim_reconfigure_now: Request reconfiguration now. * @sb: client handle * This API does what commit flag in other scheduling APIs do. * -EXFULL is returned if there is no space in TDM to reserve the * bandwidth. -EBUSY is returned if reconfiguration request is already in * progress. */ extern int slim_reconfigure_now(struct slim_device *sb); /* * slim_ctrl_clk_pause: Called by slimbus controller to request clock to be * paused or woken up out of clock pause * @ctrl: controller requesting bus to be paused or woken up * @wakeup: Wakeup this controller from clock pause. * @restart: Restart time value per spec used for clock pause. This value * isn't used when controller is to be woken up. * This API executes clock pause reconfiguration sequence if wakeup is false. * If wakeup is true, controller's wakeup is called * Slimbus clock is idle and can be disabled by the controller later. */ extern int slim_ctrl_clk_pause(struct slim_controller *ctrl, bool wakeup, u8 restart); /* * slim_driver_register: Client driver registration with slimbus * @drv:Client driver to be associated with client-device. * This API will register the client driver with the slimbus * It is called from the driver's module-init function. */ extern int slim_driver_register(struct slim_driver *drv); /* * slim_driver_unregister: Undo effects of slim_driver_register * @drv: Client driver to be unregistered */ extern void slim_driver_unregister(struct slim_driver *drv); /* * slim_add_numbered_controller: Controller bring-up. * @ctrl: Controller to be registered. * A controller is registered with the framework using this API. ctrl->nr is the * desired number with which slimbus framework registers the controller. * Function will return -EBUSY if the number is in use. */ extern int slim_add_numbered_controller(struct slim_controller *ctrl); /* * slim_del_controller: Controller tear-down. * Controller added with the above API is teared down using this API. */ extern int slim_del_controller(struct slim_controller *ctrl); /* * slim_add_device: Add a new device without register board info. * @ctrl: Controller to which this device is to be added to. * Called when device doesn't have an explicit client-driver to be probed, or * the client-driver is a module installed dynamically. */ extern int slim_add_device(struct slim_controller *ctrl, struct slim_device *sbdev); /* slim_remove_device: Remove the effect of slim_add_device() */ extern void slim_remove_device(struct slim_device *sbdev); /* * slim_assign_laddr: Assign logical address to a device enumerated. * @ctrl: Controller with which device is enumerated. * @e_addr: 6-byte elemental address of the device. * @e_len: buffer length for e_addr * @laddr: Return logical address (if valid flag is false) * @valid: true if laddr holds a valid address that controller wants to * set for this enumeration address. Otherwise framework sets index into * address table as logical address. * Called by controller in response to REPORT_PRESENT. Framework will assign * a logical address to this enumeration address. * Function returns -EXFULL to indicate that all logical addresses are already * taken. */ extern int slim_assign_laddr(struct slim_controller *ctrl, const u8 *e_addr, u8 e_len, u8 *laddr, bool valid); /* * slim_report_absent: Controller calls this function when a device * reports absent, OR when the device cannot be communicated with * @sbdev: Device that cannot be reached, or that sent report absent */ void slim_report_absent(struct slim_device *sbdev); /* * slim_framer_booted: This function is called by controller after the active * framer has booted (using Bus Reset sequence, or after it has shutdown and has * come back up). Components, devices on the bus may be in undefined state, * and this function triggers their drivers to do the needful * to bring them back in Reset state so that they can acquire sync, report * present and be operational again. */ void slim_framer_booted(struct slim_controller *ctrl); /* * slim_msg_response: Deliver Message response received from a device to the * framework. * @ctrl: Controller handle * @reply: Reply received from the device * @len: Length of the reply * @tid: Transaction ID received with which framework can associate reply. * Called by controller to inform framework about the response received. * This helps in making the API asynchronous, and controller-driver doesn't need * to manage 1 more table other than the one managed by framework mapping TID * with buffers */ extern void slim_msg_response(struct slim_controller *ctrl, u8 *reply, u8 tid, u8 len); /* * slim_busnum_to_ctrl: Map bus number to controller * @busnum: Bus number * Returns controller representing this bus number */ extern struct slim_controller *slim_busnum_to_ctrl(u32 busnum); /* * slim_ctrl_add_boarddevs: Add devices registered by board-info * @ctrl: Controller to which these devices are to be added to. * This API is called by controller when it is up and running. * If devices on a controller were registered before controller, * this will make sure that they get probed when controller is up */ extern void slim_ctrl_add_boarddevs(struct slim_controller *ctrl); /* * slim_register_board_info: Board-initialization routine. * @info: List of all devices on all controllers present on the board. * @n: number of entries. * API enumerates respective devices on corresponding controller. * Called from board-init function. */ #ifdef CONFIG_SLIMBUS extern int slim_register_board_info(struct slim_boardinfo const *info, unsigned n); #else static inline int slim_register_board_info(struct slim_boardinfo const *info, unsigned n) { return 0; } #endif static inline void *slim_get_ctrldata(const struct slim_controller *dev) { return dev_get_drvdata(&dev->dev); } static inline void slim_set_ctrldata(struct slim_controller *dev, void *data) { dev_set_drvdata(&dev->dev, data); } static inline void *slim_get_devicedata(const struct slim_device *dev) { return dev_get_drvdata(&dev->dev); } static inline void slim_set_clientdata(struct slim_device *dev, void *data) { dev_set_drvdata(&dev->dev, data); } #endif /* _LINUX_SLIMBUS_H */