/* Copyright (c) 2012-2015, 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 _IPA_H_ #define _IPA_H_ #include #include #include #include #include #define IPA_APPS_MAX_BW_IN_MBPS 200 /** * enum ipa_nat_en_type - NAT setting type in IPA end-point */ enum ipa_nat_en_type { IPA_BYPASS_NAT, IPA_SRC_NAT, IPA_DST_NAT, }; /** * enum ipa_mode_type - mode setting type in IPA end-point * @BASIC: basic mode * @ENABLE_FRAMING_HDLC: not currently supported * @ENABLE_DEFRAMING_HDLC: not currently supported * @DMA: all data arriving IPA will not go through IPA logic blocks, this * allows IPA to work as DMA for specific pipes. */ enum ipa_mode_type { IPA_BASIC, IPA_ENABLE_FRAMING_HDLC, IPA_ENABLE_DEFRAMING_HDLC, IPA_DMA, }; /** * enum ipa_aggr_en_type - aggregation setting type in IPA * end-point */ enum ipa_aggr_en_type { IPA_BYPASS_AGGR, IPA_ENABLE_AGGR, IPA_ENABLE_DEAGGR, }; /** * enum ipa_aggr_type - type of aggregation in IPA end-point */ enum ipa_aggr_type { IPA_MBIM_16 = 0, IPA_HDLC = 1, IPA_TLP = 2, IPA_RNDIS = 3, IPA_GENERIC = 4, IPA_QCMAP = 6, }; /** * enum ipa_aggr_mode - global aggregation mode */ enum ipa_aggr_mode { IPA_MBIM, IPA_QCNCM, }; /** * enum ipa_dp_evt_type - type of event client callback is * invoked for on data path * @IPA_RECEIVE: data is struct sk_buff * @IPA_WRITE_DONE: data is struct sk_buff */ enum ipa_dp_evt_type { IPA_RECEIVE, IPA_WRITE_DONE, }; /** * enum hdr_total_len_or_pad_type - type vof alue held by TOTAL_LEN_OR_PAD * field in header configuration register. * @IPA_HDR_PAD: field is used as padding length * @IPA_HDR_TOTAL_LEN: field is used as total length */ enum hdr_total_len_or_pad_type { IPA_HDR_PAD = 0, IPA_HDR_TOTAL_LEN = 1, }; /** * struct ipa_ep_cfg_nat - NAT configuration in IPA end-point * @nat_en: This defines the default NAT mode for the pipe: in case of * filter miss - the default NAT mode defines the NATing operation * on the packet. Valid for Input Pipes only (IPA consumer) */ struct ipa_ep_cfg_nat { enum ipa_nat_en_type nat_en; }; /** * struct ipa_ep_cfg_hdr - header configuration in IPA end-point * * @hdr_len:Header length in bytes to be added/removed. Assuming * header len is constant per endpoint. Valid for * both Input and Output Pipes * @hdr_ofst_metadata_valid: 0: Metadata_Ofst value is invalid, i.e., no * metadata within header. * 1: Metadata_Ofst value is valid, i.e., metadata * within header is in offset Metadata_Ofst Valid * for Input Pipes only (IPA Consumer) (for output * pipes, metadata already set within the header) * @hdr_ofst_metadata: Offset within header in which metadata resides * Size of metadata - 4bytes * Example - Stream ID/SSID/mux ID. * Valid for Input Pipes only (IPA Consumer) (for output * pipes, metadata already set within the header) * @hdr_additional_const_len: Defines the constant length that should be added * to the payload length in order for IPA to update * correctly the length field within the header * (valid only in case Hdr_Ofst_Pkt_Size_Valid=1) * Valid for Output Pipes (IPA Producer) * @hdr_ofst_pkt_size_valid: 0: Hdr_Ofst_Pkt_Size value is invalid, i.e., no * length field within the inserted header * 1: Hdr_Ofst_Pkt_Size value is valid, i.e., a * packet length field resides within the header * Valid for Output Pipes (IPA Producer) * @hdr_ofst_pkt_size: Offset within header in which packet size reside. Upon * Header Insertion, IPA will update this field within the * header with the packet length . Assumption is that * header length field size is constant and is 2Bytes * Valid for Output Pipes (IPA Producer) * @hdr_a5_mux: Determines whether A5 Mux header should be added to the packet. * This bit is valid only when Hdr_En=01(Header Insertion) * SW should set this bit for IPA-to-A5 pipes. * 0: Do not insert A5 Mux Header * 1: Insert A5 Mux Header * Valid for Output Pipes (IPA Producer) * @hdr_remove_additional: bool switch, remove more of the header * based on the aggregation configuration (register * HDR_LEN_INC_DEAGG_HDR) * @hdr_metadata_reg_valid: bool switch, metadata from * register INIT_HDR_METADATA_n is valid. * (relevant only for IPA Consumer pipes) */ struct ipa_ep_cfg_hdr { u32 hdr_len; u32 hdr_ofst_metadata_valid; u32 hdr_ofst_metadata; u32 hdr_additional_const_len; u32 hdr_ofst_pkt_size_valid; u32 hdr_ofst_pkt_size; u32 hdr_a5_mux; u32 hdr_remove_additional; u32 hdr_metadata_reg_valid; }; /** * struct ipa_ep_cfg_hdr_ext - extended header configuration in IPA end-point * @hdr_pad_to_alignment: Pad packet to specified alignment * (2^pad to alignment value), i.e. value of 3 means pad to 2^3 = 8 bytes * alignment. Alignment is to 0,2 up to 32 bytes (IPAv2 does not support 64 * byte alignment). Valid for Output Pipes only (IPA Producer). * @hdr_total_len_or_pad_offset: Offset to length field containing either * total length or pad length, per hdr_total_len_or_pad config * @hdr_payload_len_inc_padding: 0-IPA_ENDP_INIT_HDR_n’s HDR_OFST_PKT_SIZE does * not includes padding bytes size, payload_len = packet length, * 1-IPA_ENDP_INIT_HDR_n’s HDR_OFST_PKT_SIZE includes * padding bytes size, payload_len = packet length + padding * @hdr_total_len_or_pad: field is used as PAD length ot as Total length * (header + packet + padding) * @hdr_total_len_or_pad_valid: 0-Ignore TOTAL_LEN_OR_PAD field, 1-Process * TOTAL_LEN_OR_PAD field * @hdr_little_endian: 0-Big Endian, 1-Little Endian */ struct ipa_ep_cfg_hdr_ext { u32 hdr_pad_to_alignment; u32 hdr_total_len_or_pad_offset; bool hdr_payload_len_inc_padding; enum hdr_total_len_or_pad_type hdr_total_len_or_pad; bool hdr_total_len_or_pad_valid; bool hdr_little_endian; }; /** * struct ipa_ep_cfg_mode - mode configuration in IPA end-point * @mode: Valid for Input Pipes only (IPA Consumer) * @dst: This parameter specifies the output pipe to which the packets * will be routed to. * This parameter is valid for Mode=DMA and not valid for * Mode=Basic * Valid for Input Pipes only (IPA Consumer) */ struct ipa_ep_cfg_mode { enum ipa_mode_type mode; enum ipa_client_type dst; }; /** * struct ipa_ep_cfg_aggr - aggregation configuration in IPA end-point * * @aggr_en: Valid for both Input and Output Pipes * @aggr: aggregation type (Valid for both Input and Output Pipes) * @aggr_byte_limit: Limit of aggregated packet size in KB (<=32KB) When set * to 0, there is no size limitation on the aggregation. * When both, Aggr_Byte_Limit and Aggr_Time_Limit are set * to 0, there is no aggregation, every packet is sent * independently according to the aggregation structure * Valid for Output Pipes only (IPA Producer ) * @aggr_time_limit: Timer to close aggregated packet (<=32ms) When set to 0, * there is no time limitation on the aggregation. When * both, Aggr_Byte_Limit and Aggr_Time_Limit are set to 0, * there is no aggregation, every packet is sent * independently according to the aggregation structure * Valid for Output Pipes only (IPA Producer) * @aggr_pkt_limit: Defines if EOF close aggregation or not. if set to false * HW closes aggregation (sends EOT) only based on its * aggregation config (byte/time limit, etc). if set to * true EOF closes aggregation in addition to HW based * aggregation closure. Valid for Output Pipes only (IPA * Producer). EOF affects only Pipes configured for * generic aggregation. */ struct ipa_ep_cfg_aggr { enum ipa_aggr_en_type aggr_en; enum ipa_aggr_type aggr; u32 aggr_byte_limit; u32 aggr_time_limit; u32 aggr_pkt_limit; }; /** * struct ipa_ep_cfg_route - route configuration in IPA end-point * @rt_tbl_hdl: Defines the default routing table index to be used in case there * is no filter rule matching, valid for Input Pipes only (IPA * Consumer). Clients should set this to 0 which will cause default * v4 and v6 routes setup internally by IPA driver to be used for * this end-point */ struct ipa_ep_cfg_route { u32 rt_tbl_hdl; }; /** * struct ipa_ep_cfg_holb - head of line blocking configuration in IPA end-point * @en: enable(1 => ok to drop pkt)/disable(0 => never drop pkt) * @tmr_val: duration in units of 128 IPA clk clock cyles [0,511], 1 clk=1.28us * IPAv2.5 support 32 bit HOLB timeout value, previous versions * supports 16 bit */ struct ipa_ep_cfg_holb { u16 en; u32 tmr_val; }; /** * struct ipa_ep_cfg_deaggr - deaggregation configuration in IPA end-point * @deaggr_hdr_len: Deaggregation Header length in bytes. Valid only for Input * Pipes, which are configured for ’Generic’ deaggregation. * @packet_offset_valid: - 0: PACKET_OFFSET is not used, 1: PACKET_OFFSET is * used. * @packet_offset_location: Location of packet offset field, which specifies * the offset to the packet from the start of the packet offset field. * @max_packet_len: DEAGGR Max Packet Length in Bytes. A Packet with higher * size wil be treated as an error. 0 - Packet Length is not Bound, * IPA should not check for a Max Packet Length. */ struct ipa_ep_cfg_deaggr { u32 deaggr_hdr_len; bool packet_offset_valid; u32 packet_offset_location; u32 max_packet_len; }; /** * enum ipa_cs_offload - checksum offload setting */ enum ipa_cs_offload { IPA_DISABLE_CS_OFFLOAD, IPA_ENABLE_CS_OFFLOAD_UL, IPA_ENABLE_CS_OFFLOAD_DL, IPA_CS_RSVD }; /** * struct ipa_ep_cfg_cfg - IPA ENDP_INIT Configuration register * @frag_offload_en: - 0 - IP packet fragment handling is disabled. IP packet * fragments should be sent to SW. SW is responsible for * configuring filter rules, and IP packet filter exception should be * used to send all fragments to SW. 1 - IP packet fragment * handling is enabled. IPA checks for fragments and uses frag * rules table for processing fragments. Valid only for Input Pipes * (IPA Consumer) * @cs_offload_en: Checksum offload enable: 00: Disable checksum offload, 01: * Enable checksum calculation offload (UL) - For output pipe * (IPA producer) specifies that checksum trailer is to be added. * For input pipe (IPA consumer) specifies presence of checksum * header and IPA checksum calculation accordingly. 10: Enable * checksum calculation offload (DL) - For output pipe (IPA * producer) specifies that checksum trailer is to be added. For * input pipe (IPA consumer) specifies IPA checksum calculation. * 11: Reserved * @cs_metadata_hdr_offset: Offset in Words (4 bytes) within header in which * checksum meta info header (4 bytes) starts (UL). Values are 0-15, which * mean 0 - 60 byte checksum header offset. Valid for input * pipes only (IPA consumer) */ struct ipa_ep_cfg_cfg { bool frag_offload_en; enum ipa_cs_offload cs_offload_en; u8 cs_metadata_hdr_offset; }; /** * struct ipa_ep_cfg_metadata_mask - Endpoint initialization hdr metadata mask * @metadata_mask: Mask specifying which metadata bits to write to * IPA_ENDP_INIT_HDR_n.s HDR_OFST_METADATA. Only * masked metadata bits (set to 1) will be written. Valid for Output * Pipes only (IPA Producer) */ struct ipa_ep_cfg_metadata_mask { u32 metadata_mask; }; /** * struct ipa_ep_cfg_metadata - Meta Data configuration in IPA end-point * @md: This defines the meta data from tx data descriptor * @qmap_id: qmap id */ struct ipa_ep_cfg_metadata { u32 qmap_id; }; /** * struct ipa_ep_cfg - configuration of IPA end-point * @nat: NAT parmeters * @hdr: Header parameters * @hdr_ext: Extended header parameters * @mode: Mode parameters * @aggr: Aggregation parameters * @deaggr: Deaggregation params * @route: Routing parameters * @cfg: Configuration register data * @metadata_mask: Hdr metadata mask * @meta: Meta Data */ struct ipa_ep_cfg { struct ipa_ep_cfg_nat nat; struct ipa_ep_cfg_hdr hdr; struct ipa_ep_cfg_hdr_ext hdr_ext; struct ipa_ep_cfg_mode mode; struct ipa_ep_cfg_aggr aggr; struct ipa_ep_cfg_deaggr deaggr; struct ipa_ep_cfg_route route; struct ipa_ep_cfg_cfg cfg; struct ipa_ep_cfg_metadata_mask metadata_mask; struct ipa_ep_cfg_metadata meta; }; /** * struct ipa_ep_cfg_ctrl - Control configuration in IPA end-point * @ipa_ep_suspend: 0 - ENDP is enabled, 1 - ENDP is suspended (disabled). * Valid for PROD Endpoints * @ipa_ep_delay: 0 - ENDP is free-running, 1 - ENDP is delayed. * SW controls the data flow of an endpoint usind this bit. * Valid for CONS Endpoints */ struct ipa_ep_cfg_ctrl { bool ipa_ep_suspend; bool ipa_ep_delay; }; /** * x should be in bytes */ #define IPA_NUM_OF_FIFO_DESC(x) (x/sizeof(struct sps_iovec)) typedef void (*ipa_notify_cb)(void *priv, enum ipa_dp_evt_type evt, unsigned long data); /** * struct ipa_connect_params - low-level client connect input parameters. Either * client allocates the data and desc FIFO and specifies that in data+desc OR * specifies sizes and pipe_mem pref and IPA does the allocation. * * @ipa_ep_cfg: IPA EP configuration * @client: type of "client" * @client_bam_hdl: client SPS handle * @client_ep_idx: client PER EP index * @priv: callback cookie * @notify: callback * priv - callback cookie evt - type of event data - data relevant * to event. May not be valid. See event_type enum for valid * cases. * @desc_fifo_sz: size of desc FIFO * @data_fifo_sz: size of data FIFO * @pipe_mem_preferred: if true, try to alloc the FIFOs in pipe mem, fallback * to sys mem if pipe mem alloc fails * @desc: desc FIFO meta-data when client has allocated it * @data: data FIFO meta-data when client has allocated it * @skip_ep_cfg: boolean field that determines if EP should be configured * by IPA driver * @keep_ipa_awake: when true, IPA will not be clock gated */ struct ipa_connect_params { struct ipa_ep_cfg ipa_ep_cfg; enum ipa_client_type client; unsigned long client_bam_hdl; u32 client_ep_idx; void *priv; ipa_notify_cb notify; u32 desc_fifo_sz; u32 data_fifo_sz; bool pipe_mem_preferred; struct sps_mem_buffer desc; struct sps_mem_buffer data; bool skip_ep_cfg; bool keep_ipa_awake; }; /** * struct ipa_sps_params - SPS related output parameters resulting from * low/high level client connect * @ipa_bam_hdl: IPA SPS handle * @ipa_ep_idx: IPA PER EP index * @desc: desc FIFO meta-data * @data: data FIFO meta-data */ struct ipa_sps_params { unsigned long ipa_bam_hdl; u32 ipa_ep_idx; struct sps_mem_buffer desc; struct sps_mem_buffer data; }; /** * struct ipa_tx_intf - interface tx properties * @num_props: number of tx properties * @prop: the tx properties array */ struct ipa_tx_intf { u32 num_props; struct ipa_ioc_tx_intf_prop *prop; }; /** * struct ipa_rx_intf - interface rx properties * @num_props: number of rx properties * @prop: the rx properties array */ struct ipa_rx_intf { u32 num_props; struct ipa_ioc_rx_intf_prop *prop; }; /** * struct ipa_ext_intf - interface ext properties * @excp_pipe_valid: is next field valid? * @excp_pipe: exception packets should be routed to this pipe * @num_props: number of ext properties * @prop: the ext properties array */ struct ipa_ext_intf { bool excp_pipe_valid; enum ipa_client_type excp_pipe; u32 num_props; struct ipa_ioc_ext_intf_prop *prop; }; /** * struct ipa_sys_connect_params - information needed to setup an IPA end-point * in system-BAM mode * @ipa_ep_cfg: IPA EP configuration * @client: the type of client who "owns" the EP * @desc_fifo_sz: size of desc FIFO * @priv: callback cookie * @notify: callback * priv - callback cookie * evt - type of event * data - data relevant to event. May not be valid. See event_type * enum for valid cases. * @skip_ep_cfg: boolean field that determines if EP should be configured * by IPA driver * @keep_ipa_awake: when true, IPA will not be clock gated */ struct ipa_sys_connect_params { struct ipa_ep_cfg ipa_ep_cfg; enum ipa_client_type client; u32 desc_fifo_sz; void *priv; ipa_notify_cb notify; bool skip_ep_cfg; bool keep_ipa_awake; }; /** * struct ipa_tx_meta - meta-data for the TX packet * @mbim_stream_id: the stream ID used in NDP signature * @mbim_stream_id_valid: is above field valid? * @dma_address: dma mapped address of TX packet * @dma_address_valid: is above field valid? */ struct ipa_tx_meta { u8 mbim_stream_id; bool mbim_stream_id_valid; u8 pkt_init_dst_ep; bool pkt_init_dst_ep_valid; bool pkt_init_dst_ep_remote; dma_addr_t dma_address; bool dma_address_valid; }; /** * typedef ipa_msg_free_fn - callback function * @param buff - [in] the message payload to free * @param len - [in] size of message payload * @param type - [in] the message type * * Message callback registered by kernel client with IPA driver to * free message payload after IPA driver processing is complete * * No return value */ typedef void (*ipa_msg_free_fn)(void *buff, u32 len, u32 type); /** * typedef ipa_msg_pull_fn - callback function * @param buff - [in] where to copy message payload * @param len - [in] size of buffer to copy payload into * @param type - [in] the message type * * Message callback registered by kernel client with IPA driver for * IPA driver to pull messages from the kernel client upon demand from * user-space * * Returns how many bytes were copied into the buffer. */ typedef int (*ipa_msg_pull_fn)(void *buff, u32 len, u32 type); /** * enum ipa_voltage_level - IPA Voltage levels */ enum ipa_voltage_level { IPA_VOLTAGE_UNSPECIFIED, IPA_VOLTAGE_SVS = IPA_VOLTAGE_UNSPECIFIED, IPA_VOLTAGE_NOMINAL, IPA_VOLTAGE_TURBO, IPA_VOLTAGE_MAX, }; /** * enum ipa_rm_event - IPA RM events * * Indicate the resource state change */ enum ipa_rm_event { IPA_RM_RESOURCE_GRANTED, IPA_RM_RESOURCE_RELEASED }; typedef void (*ipa_rm_notify_cb)(void *user_data, enum ipa_rm_event event, unsigned long data); /** * struct ipa_rm_register_params - information needed to * register IPA RM client with IPA RM * * @user_data: IPA RM client provided information * to be passed to notify_cb callback below * @notify_cb: callback which is called by resource * to notify the IPA RM client about its state * change IPA RM client is expected to perform non * blocking operations only in notify_cb and * release notification context as soon as * possible. */ struct ipa_rm_register_params { void *user_data; ipa_rm_notify_cb notify_cb; }; /** * struct ipa_rm_create_params - information needed to initialize * the resource * @name: resource name * @floor_voltage: floor voltage needed for client to operate in maximum * bandwidth. * @reg_params: register parameters, contains are ignored * for consumer resource NULL should be provided * for consumer resource * @request_resource: function which should be called to request resource, * NULL should be provided for producer resource * @release_resource: function which should be called to release resource, * NULL should be provided for producer resource * * IPA RM client is expected to perform non blocking operations only * in request_resource and release_resource functions and * release notification context as soon as possible. */ struct ipa_rm_create_params { enum ipa_rm_resource_name name; enum ipa_voltage_level floor_voltage; struct ipa_rm_register_params reg_params; int (*request_resource)(void); int (*release_resource)(void); }; /** * struct ipa_rm_perf_profile - information regarding IPA RM client performance * profile * * @max_bandwidth_mbps: maximum bandwidth need of the client in Mbps */ struct ipa_rm_perf_profile { u32 max_supported_bandwidth_mbps; }; #define A2_MUX_HDR_NAME_V4_PREF "dmux_hdr_v4_" #define A2_MUX_HDR_NAME_V6_PREF "dmux_hdr_v6_" /** * enum teth_tethering_mode - Tethering mode (Rmnet / MBIM) */ enum teth_tethering_mode { TETH_TETHERING_MODE_RMNET, TETH_TETHERING_MODE_MBIM, TETH_TETHERING_MODE_MAX, }; /** * teth_bridge_init_params - Parameters used for in/out USB API * @usb_notify_cb: Callback function which should be used by the caller. * Output parameter. * @private_data: Data for the callback function. Should be used by the * caller. Output parameter. * @skip_ep_cfg: boolean field that determines if Apps-processor * should or should not confiugre this end-point. */ struct teth_bridge_init_params { ipa_notify_cb usb_notify_cb; void *private_data; enum ipa_client_type client; bool skip_ep_cfg; }; /** * struct teth_bridge_connect_params - Parameters used in teth_bridge_connect() * @ipa_usb_pipe_hdl: IPA to USB pipe handle, returned from ipa_connect() * @usb_ipa_pipe_hdl: USB to IPA pipe handle, returned from ipa_connect() * @tethering_mode: Rmnet or MBIM * @ipa_client_type: IPA "client" name (IPA_CLIENT_USB#_PROD) */ struct teth_bridge_connect_params { u32 ipa_usb_pipe_hdl; u32 usb_ipa_pipe_hdl; enum teth_tethering_mode tethering_mode; enum ipa_client_type client_type; }; /** * struct ipa_tx_data_desc - information needed * to send data packet to HW link: link to data descriptors * priv: client specific private data * @pyld_buffer: pointer to the data buffer that holds frame * @pyld_len: length of the data packet */ struct ipa_tx_data_desc { struct list_head link; void *priv; void *pyld_buffer; u16 pyld_len; }; /** * struct ipa_rx_data - information needed * to send to wlan driver on receiving data from ipa hw * @skb: skb * @dma_addr: DMA address of this Rx packet */ struct ipa_rx_data { struct sk_buff *skb; dma_addr_t dma_addr; }; enum ipa_irq_type { IPA_BAD_SNOC_ACCESS_IRQ = 0, IPA_EOT_COAL_IRQ, IPA_UC_IRQ_0, IPA_UC_IRQ_1, IPA_UC_IRQ_2, IPA_UC_IRQ_3, IPA_UC_IN_Q_NOT_EMPTY_IRQ, IPA_UC_RX_CMD_Q_NOT_FULL_IRQ, IPA_UC_TX_CMD_Q_NOT_FULL_IRQ, IPA_UC_TO_PROC_ACK_Q_NOT_FULL_IRQ, IPA_PROC_TO_UC_ACK_Q_NOT_EMPTY_IRQ, IPA_RX_ERR_IRQ, IPA_DEAGGR_ERR_IRQ, IPA_TX_ERR_IRQ, IPA_STEP_MODE_IRQ, IPA_PROC_ERR_IRQ, IPA_TX_SUSPEND_IRQ = 16, IPA_TX_HOLB_DROP_IRQ = 17, IPA_IRQ_MAX }; /** * struct ipa_tx_suspend_irq_data - interrupt data for IPA_TX_SUSPEND_IRQ * @endpoints: bitmask of endpoints which case IPA_TX_SUSPEND_IRQ interrupt * @dma_addr: DMA address of this Rx packet */ struct ipa_tx_suspend_irq_data { u32 endpoints; }; /** * typedef ipa_irq_handler_t - irq handler/callback type * @param ipa_irq_type - [in] interrupt type * @param private_data - [in, out] the client private data * @param interrupt_data - [out] interrupt information data * * callback registered by ipa_add_interrupt_handler function to * handle a specific interrupt type * * No return value */ typedef void (*ipa_irq_handler_t)(enum ipa_irq_type interrupt, void *private_data, void *interrupt_data); /** * struct IpaHwBamStats_t - Strucuture holding the BAM statistics * * @bamFifoFull : Number of times Bam Fifo got full - For In Ch: Good, * For Out Ch: Bad * @bamFifoEmpty : Number of times Bam Fifo got empty - For In Ch: Bad, * For Out Ch: Good * @bamFifoUsageHigh : Number of times Bam fifo usage went above 75% - * For In Ch: Good, For Out Ch: Bad * @bamFifoUsageLow : Number of times Bam fifo usage went below 25% - * For In Ch: Bad, For Out Ch: Good */ struct IpaHwBamStats_t { u32 bamFifoFull; u32 bamFifoEmpty; u32 bamFifoUsageHigh; u32 bamFifoUsageLow; u32 bamUtilCount; } __packed; /** * struct IpaHwRingStats_t - Strucuture holding the Ring statistics * * @ringFull : Number of times Transfer Ring got full - For In Ch: Good, * For Out Ch: Bad * @ringEmpty : Number of times Transfer Ring got empty - For In Ch: Bad, * For Out Ch: Good * @ringUsageHigh : Number of times Transfer Ring usage went above 75% - * For In Ch: Good, For Out Ch: Bad * @ringUsageLow : Number of times Transfer Ring usage went below 25% - * For In Ch: Bad, For Out Ch: Good */ struct IpaHwRingStats_t { u32 ringFull; u32 ringEmpty; u32 ringUsageHigh; u32 ringUsageLow; u32 RingUtilCount; } __packed; /** * struct IpaHwStatsWDIRxInfoData_t - Structure holding the WDI Rx channel * structures * * @max_outstanding_pkts : Number of outstanding packets in Rx Ring * @num_pkts_processed : Number of packets processed - cumulative * @rx_ring_rp_value : Read pointer last advertized to the WLAN FW * @rx_ind_ring_stats : Ring info * @bam_stats : BAM info * @num_bam_int_handled : Number of Bam Interrupts handled by FW * @num_db : Number of times the doorbell was rung * @num_unexpected_db : Number of unexpected doorbells */ struct IpaHwStatsWDIRxInfoData_t { u32 max_outstanding_pkts; u32 num_pkts_processed; u32 rx_ring_rp_value; struct IpaHwRingStats_t rx_ind_ring_stats; struct IpaHwBamStats_t bam_stats; u32 num_bam_int_handled; u32 num_db; u32 num_unexpected_db; u32 num_pkts_in_dis_uninit_state; u32 reserved1; u32 reserved2; } __packed; /** * struct IpaHwStatsWDITxInfoData_t - Structure holding the WDI Tx channel * structures * * @num_pkts_processed : Number of packets processed - cumulative * @copy_engine_doorbell_value : latest value of doorbell written to copy engine * @num_db_fired : Number of DB from uC FW to Copy engine * @tx_comp_ring_stats : ring info * @bam_stats : BAM info * @num_db : Number of times the doorbell was rung * @num_unexpected_db : Number of unexpected doorbells * @num_bam_int_handled : Number of Bam Interrupts handled by FW * @num_bam_int_in_non_runnning_state : Number of Bam interrupts while not in * Running state * @num_qmb_int_handled : Number of QMB interrupts handled */ struct IpaHwStatsWDITxInfoData_t { u32 num_pkts_processed; u32 copy_engine_doorbell_value; u32 num_db_fired; struct IpaHwRingStats_t tx_comp_ring_stats; struct IpaHwBamStats_t bam_stats; u32 num_db; u32 num_unexpected_db; u32 num_bam_int_handled; u32 num_bam_int_in_non_runnning_state; u32 num_qmb_int_handled; u32 num_bam_int_handled_while_wait_for_bam; } __packed; /** * struct IpaHwStatsWDIInfoData_t - Structure holding the WDI channel structures * * @rx_ch_stats : RX stats * @tx_ch_stats : TX stats */ struct IpaHwStatsWDIInfoData_t { struct IpaHwStatsWDIRxInfoData_t rx_ch_stats; struct IpaHwStatsWDITxInfoData_t tx_ch_stats; } __packed; /** * struct ipa_wdi_ul_params - WDI_RX configuration * @rdy_ring_base_pa: physical address of the base of the Rx ring (containing * Rx buffers) * @rdy_ring_size: size of the Rx ring in bytes * @rdy_ring_rp_pa: physical address of the location through which IPA uc is * expected to communicate about the Read pointer into the Rx Ring */ struct ipa_wdi_ul_params { phys_addr_t rdy_ring_base_pa; u32 rdy_ring_size; phys_addr_t rdy_ring_rp_pa; }; /** * struct ipa_wdi_ul_params_smmu - WDI_RX configuration (with WLAN SMMU) * @rdy_ring: SG table describing the Rx ring (containing Rx buffers) * @rdy_ring_size: size of the Rx ring in bytes * @rdy_ring_rp_pa: physical address of the location through which IPA uc is * expected to communicate about the Read pointer into the Rx Ring */ struct ipa_wdi_ul_params_smmu { struct sg_table rdy_ring; u32 rdy_ring_size; phys_addr_t rdy_ring_rp_pa; }; /** * struct ipa_wdi_dl_params - WDI_TX configuration * @comp_ring_base_pa: physical address of the base of the Tx completion ring * @comp_ring_size: size of the Tx completion ring in bytes * @ce_ring_base_pa: physical address of the base of the Copy Engine Source * Ring * @ce_door_bell_pa: physical address of the doorbell that the IPA uC has to * write into to trigger the copy engine * @ce_ring_size: Copy Engine Ring size in bytes * @num_tx_buffers: Number of pkt buffers allocated */ struct ipa_wdi_dl_params { phys_addr_t comp_ring_base_pa; u32 comp_ring_size; phys_addr_t ce_ring_base_pa; phys_addr_t ce_door_bell_pa; u32 ce_ring_size; u32 num_tx_buffers; }; /** * struct ipa_wdi_dl_params_smmu - WDI_TX configuration (with WLAN SMMU) * @comp_ring: SG table describing the Tx completion ring * @comp_ring_size: size of the Tx completion ring in bytes * @ce_ring: SG table describing the Copy Engine Source Ring * @ce_door_bell_pa: physical address of the doorbell that the IPA uC has to * write into to trigger the copy engine * @ce_ring_size: Copy Engine Ring size in bytes * @num_tx_buffers: Number of pkt buffers allocated */ struct ipa_wdi_dl_params_smmu { struct sg_table comp_ring; u32 comp_ring_size; struct sg_table ce_ring; phys_addr_t ce_door_bell_pa; u32 ce_ring_size; u32 num_tx_buffers; }; /** * struct ipa_wdi_in_params - information provided by WDI client * @sys: IPA EP configuration info * @ul: WDI_RX configuration info * @dl: WDI_TX configuration info * @ul_smmu: WDI_RX configuration info when WLAN uses SMMU * @dl_smmu: WDI_TX configuration info when WLAN uses SMMU * @smmu_enabled: true if WLAN uses SMMU */ struct ipa_wdi_in_params { struct ipa_sys_connect_params sys; union { struct ipa_wdi_ul_params ul; struct ipa_wdi_dl_params dl; struct ipa_wdi_ul_params_smmu ul_smmu; struct ipa_wdi_dl_params_smmu dl_smmu; } u; bool smmu_enabled; }; /** * struct ipa_wdi_out_params - information provided to WDI client * @uc_door_bell_pa: physical address of IPA uc doorbell * @clnt_hdl: opaque handle assigned to client */ struct ipa_wdi_out_params { phys_addr_t uc_door_bell_pa; u32 clnt_hdl; }; /** * struct ipa_wdi_db_params - information provided to retrieve * physical address of uC doorbell * @client: type of "client" (IPA_CLIENT_WLAN#_PROD/CONS) * @uc_door_bell_pa: physical address of IPA uc doorbell */ struct ipa_wdi_db_params { enum ipa_client_type client; phys_addr_t uc_door_bell_pa; }; /** * struct ipa_wdi_uc_ready_params - uC ready CB parameters * @is_uC_ready: uC loaded or not * @priv : callback cookie * @notify: callback */ typedef void (*ipa_uc_ready_cb)(void *priv); struct ipa_wdi_uc_ready_params { bool is_uC_ready; void *priv; ipa_uc_ready_cb notify; }; /** * struct ipa_wdi_buffer_info - address info of a WLAN allocated buffer * @pa: physical address of the buffer * @iova: IOVA of the buffer as embedded inside the WDI descriptors * @size: size in bytes of the buffer * @result: result of map or unmap operations (out param) * * IPA driver will create/release IOMMU mapping in IPA SMMU from iova->pa */ struct ipa_wdi_buffer_info { phys_addr_t pa; unsigned long iova; size_t size; int result; }; /** * struct odu_bridge_params - parameters for odu bridge initialization API * * @netdev_name: network interface name * @priv: private data that will be supplied to client's callback * @tx_dp_notify: callback for handling SKB. the following event are supported: * IPA_WRITE_DONE: will be called after client called to odu_bridge_tx_dp() * Client is expected to free the skb. * IPA_RECEIVE: will be called for delivering skb to APPS. * Client is expected to deliver the skb to network stack. * @send_dl_skb: callback for sending skb on downlink direction to adapter. * Client is expected to free the skb. * @device_ethaddr: device Ethernet address in network order. * @ipa_desc_size: IPA Sys Pipe Desc Size */ struct odu_bridge_params { const char *netdev_name; void *priv; ipa_notify_cb tx_dp_notify; int (*send_dl_skb)(void *priv, struct sk_buff *skb); u8 device_ethaddr[ETH_ALEN]; u32 ipa_desc_size; }; /** * enum ipa_mhi_event_type - event type for mhi callback * * @IPA_MHI_EVENT_READY: IPA MHI is ready and IPA uC is loaded. After getting * this event MHI client is expected to call to ipa_mhi_start() API * @IPA_MHI_EVENT_DATA_AVAILABLE: downlink data available on MHI channel */ enum ipa_mhi_event_type { IPA_MHI_EVENT_READY, IPA_MHI_EVENT_DATA_AVAILABLE, IPA_MHI_EVENT_MAX, }; typedef void (*mhi_client_cb)(void *priv, enum ipa_mhi_event_type event, unsigned long data); /** * struct ipa_mhi_msi_info - parameters for MSI (Message Signaled Interrupts) * @addr_low: MSI lower base physical address * @addr_hi: MSI higher base physical address * @data: Data Pattern to use when generating the MSI * @mask: Mask indicating number of messages assigned by the host to device * * msi value is written according to this formula: * ((data & ~mask) | (mmio.msiVec & mask)) */ struct ipa_mhi_msi_info { u32 addr_low; u32 addr_hi; u32 data; u32 mask; }; /** * struct ipa_mhi_init_params - parameters for IPA MHI initialization API * * @msi: MSI (Message Signaled Interrupts) parameters * @mmio_addr: MHI MMIO physical address * @first_ch_idx: First channel ID for hardware accelerated channels. * @first_er_idx: First event ring ID for hardware accelerated channels. * @notify: client callback * @priv: client private data to be provided in client callback */ struct ipa_mhi_init_params { struct ipa_mhi_msi_info msi; u32 mmio_addr; u32 first_ch_idx; u32 first_er_idx; mhi_client_cb notify; void *priv; }; /** * struct ipa_mhi_start_params - parameters for IPA MHI start API * * @host_ctrl_addr: Base address of MHI control data structures * @host_data_addr: Base address of MHI data buffers */ struct ipa_mhi_start_params { u32 host_ctrl_addr; u32 host_data_addr; }; /** * struct ipa_mhi_connect_params - parameters for IPA MHI channel connect API * * @sys: IPA EP configuration info * @channel_id: MHI channel id */ struct ipa_mhi_connect_params { struct ipa_sys_connect_params sys; u8 channel_id; }; #ifdef CONFIG_IPA /* * Connect / Disconnect */ int ipa_connect(const struct ipa_connect_params *in, struct ipa_sps_params *sps, u32 *clnt_hdl); int ipa_disconnect(u32 clnt_hdl); /* * Resume / Suspend */ int ipa_reset_endpoint(u32 clnt_hdl); /* * Remove ep delay */ int ipa_clear_endpoint_delay(u32 clnt_hdl); /* * Configuration */ int ipa_cfg_ep(u32 clnt_hdl, const struct ipa_ep_cfg *ipa_ep_cfg); int ipa_cfg_ep_nat(u32 clnt_hdl, const struct ipa_ep_cfg_nat *ipa_ep_cfg); int ipa_cfg_ep_hdr(u32 clnt_hdl, const struct ipa_ep_cfg_hdr *ipa_ep_cfg); int ipa_cfg_ep_hdr_ext(u32 clnt_hdl, const struct ipa_ep_cfg_hdr_ext *ipa_ep_cfg); int ipa_cfg_ep_mode(u32 clnt_hdl, const struct ipa_ep_cfg_mode *ipa_ep_cfg); int ipa_cfg_ep_aggr(u32 clnt_hdl, const struct ipa_ep_cfg_aggr *ipa_ep_cfg); int ipa_cfg_ep_deaggr(u32 clnt_hdl, const struct ipa_ep_cfg_deaggr *ipa_ep_cfg); int ipa_cfg_ep_route(u32 clnt_hdl, const struct ipa_ep_cfg_route *ipa_ep_cfg); int ipa_cfg_ep_holb(u32 clnt_hdl, const struct ipa_ep_cfg_holb *ipa_ep_cfg); int ipa_cfg_ep_cfg(u32 clnt_hdl, const struct ipa_ep_cfg_cfg *ipa_ep_cfg); int ipa_cfg_ep_metadata_mask(u32 clnt_hdl, const struct ipa_ep_cfg_metadata_mask *ipa_ep_cfg); int ipa_cfg_ep_holb_by_client(enum ipa_client_type client, const struct ipa_ep_cfg_holb *ipa_ep_cfg); int ipa_cfg_ep_ctrl(u32 clnt_hdl, const struct ipa_ep_cfg_ctrl *ep_ctrl); /* * Header removal / addition */ int ipa_add_hdr(struct ipa_ioc_add_hdr *hdrs); int ipa_del_hdr(struct ipa_ioc_del_hdr *hdls); int ipa_commit_hdr(void); int ipa_reset_hdr(void); int ipa_get_hdr(struct ipa_ioc_get_hdr *lookup); int ipa_put_hdr(u32 hdr_hdl); int ipa_copy_hdr(struct ipa_ioc_copy_hdr *copy); /* * Header Processing Context */ int ipa_add_hdr_proc_ctx(struct ipa_ioc_add_hdr_proc_ctx *proc_ctxs); int ipa_del_hdr_proc_ctx(struct ipa_ioc_del_hdr_proc_ctx *hdls); /* * Routing */ int ipa_add_rt_rule(struct ipa_ioc_add_rt_rule *rules); int ipa_del_rt_rule(struct ipa_ioc_del_rt_rule *hdls); int ipa_commit_rt(enum ipa_ip_type ip); int ipa_reset_rt(enum ipa_ip_type ip); int ipa_get_rt_tbl(struct ipa_ioc_get_rt_tbl *lookup); int ipa_put_rt_tbl(u32 rt_tbl_hdl); int ipa_query_rt_index(struct ipa_ioc_get_rt_tbl_indx *in); int ipa_mdfy_rt_rule(struct ipa_ioc_mdfy_rt_rule *rules); /* * Filtering */ int ipa_add_flt_rule(struct ipa_ioc_add_flt_rule *rules); int ipa_del_flt_rule(struct ipa_ioc_del_flt_rule *hdls); int ipa_mdfy_flt_rule(struct ipa_ioc_mdfy_flt_rule *rules); int ipa_commit_flt(enum ipa_ip_type ip); int ipa_reset_flt(enum ipa_ip_type ip); /* * NAT */ int allocate_nat_device(struct ipa_ioc_nat_alloc_mem *mem); int ipa_nat_init_cmd(struct ipa_ioc_v4_nat_init *init); int ipa_nat_dma_cmd(struct ipa_ioc_nat_dma_cmd *dma); int ipa_nat_del_cmd(struct ipa_ioc_v4_nat_del *del); /* * Messaging */ int ipa_send_msg(struct ipa_msg_meta *meta, void *buff, ipa_msg_free_fn callback); int ipa_register_pull_msg(struct ipa_msg_meta *meta, ipa_msg_pull_fn callback); int ipa_deregister_pull_msg(struct ipa_msg_meta *meta); /* * Interface */ int ipa_register_intf(const char *name, const struct ipa_tx_intf *tx, const struct ipa_rx_intf *rx); int ipa_register_intf_ext(const char *name, const struct ipa_tx_intf *tx, const struct ipa_rx_intf *rx, const struct ipa_ext_intf *ext); int ipa_deregister_intf(const char *name); /* * Aggregation */ int ipa_set_aggr_mode(enum ipa_aggr_mode mode); int ipa_set_qcncm_ndp_sig(char sig[3]); int ipa_set_single_ndp_per_mbim(bool enable); /* * Data path */ int ipa_tx_dp(enum ipa_client_type dst, struct sk_buff *skb, struct ipa_tx_meta *metadata); /* * To transfer multiple data packets * While passing the data descriptor list, the anchor node * should be of type struct ipa_tx_data_desc not list_head */ int ipa_tx_dp_mul(enum ipa_client_type dst, struct ipa_tx_data_desc *data_desc); void ipa_free_skb(struct ipa_rx_data *); /* * System pipes */ int ipa_setup_sys_pipe(struct ipa_sys_connect_params *sys_in, u32 *clnt_hdl); int ipa_teardown_sys_pipe(u32 clnt_hdl); int ipa_connect_wdi_pipe(struct ipa_wdi_in_params *in, struct ipa_wdi_out_params *out); int ipa_disconnect_wdi_pipe(u32 clnt_hdl); int ipa_enable_wdi_pipe(u32 clnt_hdl); int ipa_disable_wdi_pipe(u32 clnt_hdl); int ipa_resume_wdi_pipe(u32 clnt_hdl); int ipa_suspend_wdi_pipe(u32 clnt_hdl); int ipa_get_wdi_stats(struct IpaHwStatsWDIInfoData_t *stats); u16 ipa_get_smem_restr_bytes(void); /* * To retrieve doorbell physical address of * wlan pipes */ int ipa_uc_wdi_get_dbpa(struct ipa_wdi_db_params *out); /* * To register uC ready callback if uC not ready * and also check uC readiness * if uC not ready only, register callback */ int ipa_uc_reg_rdyCB(struct ipa_wdi_uc_ready_params *param); int ipa_create_wdi_mapping(u32 num_buffers, struct ipa_wdi_buffer_info *info); int ipa_release_wdi_mapping(u32 num_buffers, struct ipa_wdi_buffer_info *info); /* * Resource manager */ int ipa_rm_create_resource(struct ipa_rm_create_params *create_params); int ipa_rm_delete_resource(enum ipa_rm_resource_name resource_name); int ipa_rm_register(enum ipa_rm_resource_name resource_name, struct ipa_rm_register_params *reg_params); int ipa_rm_deregister(enum ipa_rm_resource_name resource_name, struct ipa_rm_register_params *reg_params); int ipa_rm_set_perf_profile(enum ipa_rm_resource_name resource_name, struct ipa_rm_perf_profile *profile); int ipa_rm_add_dependency(enum ipa_rm_resource_name resource_name, enum ipa_rm_resource_name depends_on_name); int ipa_rm_add_dependency_sync(enum ipa_rm_resource_name resource_name, enum ipa_rm_resource_name depends_on_name); int ipa_rm_delete_dependency(enum ipa_rm_resource_name resource_name, enum ipa_rm_resource_name depends_on_name); int ipa_rm_request_resource(enum ipa_rm_resource_name resource_name); int ipa_rm_release_resource(enum ipa_rm_resource_name resource_name); int ipa_rm_notify_completion(enum ipa_rm_event event, enum ipa_rm_resource_name resource_name); int ipa_rm_inactivity_timer_init(enum ipa_rm_resource_name resource_name, unsigned long msecs); int ipa_rm_inactivity_timer_destroy(enum ipa_rm_resource_name resource_name); int ipa_rm_inactivity_timer_request_resource( enum ipa_rm_resource_name resource_name); int ipa_rm_inactivity_timer_release_resource( enum ipa_rm_resource_name resource_name); /* * Tethering bridge (Rmnet / MBIM) */ int teth_bridge_init(struct teth_bridge_init_params *params); int teth_bridge_disconnect(enum ipa_client_type client); int teth_bridge_connect(struct teth_bridge_connect_params *connect_params); /* * Tethering client info */ void ipa_set_client(int index, enum ipacm_client_enum client, bool uplink); enum ipacm_client_enum ipa_get_client(int pipe_idx); bool ipa_get_client_uplink(int pipe_idx); /* * ODU bridge */ int odu_bridge_init(struct odu_bridge_params *params); int odu_bridge_connect(void); int odu_bridge_disconnect(void); int odu_bridge_tx_dp(struct sk_buff *skb, struct ipa_tx_meta *metadata); int odu_bridge_cleanup(void); /* * IPADMA */ int ipa_dma_init(void); int ipa_dma_enable(void); int ipa_dma_disable(void); int ipa_dma_sync_memcpy(phys_addr_t dest, phys_addr_t src, int len); int ipa_dma_async_memcpy(phys_addr_t dest, phys_addr_t src, int len, void (*user_cb)(void *user1), void *user_param); int ipa_dma_uc_memcpy(phys_addr_t dest, phys_addr_t src, int len); void ipa_dma_destroy(void); /* * MHI */ int ipa_mhi_init(struct ipa_mhi_init_params *params); int ipa_mhi_start(struct ipa_mhi_start_params *params); int ipa_mhi_connect_pipe(struct ipa_mhi_connect_params *in, u32 *clnt_hdl); int ipa_mhi_disconnect_pipe(u32 clnt_hdl); int ipa_mhi_suspend(bool force); int ipa_mhi_resume(void); int ipa_mhi_destroy(void); /* * mux id */ int ipa_write_qmap_id(struct ipa_ioc_write_qmapid *param_in); /* * interrupts */ int ipa_add_interrupt_handler(enum ipa_irq_type interrupt, ipa_irq_handler_t handler, bool deferred_flag, void *private_data); int ipa_remove_interrupt_handler(enum ipa_irq_type interrupt); /* * Miscellaneous */ void ipa_bam_reg_dump(void); bool ipa_emb_ul_pipes_empty(void); int ipa_get_ep_mapping(enum ipa_client_type client); bool ipa_is_ready(void); void ipa_proxy_clk_vote(void); void ipa_proxy_clk_unvote(void); enum ipa_hw_type ipa_get_hw_type(void); bool ipa_is_client_handle_valid(u32 clnt_hdl); enum ipa_client_type ipa_get_client_mapping(int pipe_idx); enum ipa_rm_resource_name ipa_get_rm_resource_from_ep(int pipe_idx); bool ipa_get_modem_cfg_emb_pipe_flt(void); struct device *ipa_get_dma_dev(void); struct iommu_domain *ipa_get_smmu_domain(void); int ipa_disable_apps_wan_cons_deaggr(uint32_t agg_size, uint32_t agg_count); #else /* CONFIG_IPA */ /* * Connect / Disconnect */ static inline int ipa_connect(const struct ipa_connect_params *in, struct ipa_sps_params *sps, u32 *clnt_hdl) { return -EPERM; } static inline int ipa_disconnect(u32 clnt_hdl) { return -EPERM; } /* * Resume / Suspend */ static inline int ipa_reset_endpoint(u32 clnt_hdl) { return -EPERM; } /* * Remove ep delay */ static inline int ipa_clear_endpoint_delay(u32 clnt_hdl) { return -EPERM; } /* * Configuration */ static inline int ipa_cfg_ep(u32 clnt_hdl, const struct ipa_ep_cfg *ipa_ep_cfg) { return -EPERM; } static inline int ipa_cfg_ep_nat(u32 clnt_hdl, const struct ipa_ep_cfg_nat *ipa_ep_cfg) { return -EPERM; } static inline int ipa_cfg_ep_hdr(u32 clnt_hdl, const struct ipa_ep_cfg_hdr *ipa_ep_cfg) { return -EPERM; } static inline int ipa_cfg_ep_hdr_ext(u32 clnt_hdl, const struct ipa_ep_cfg_hdr_ext *ipa_ep_cfg) { return -EPERM; } static inline int ipa_cfg_ep_mode(u32 clnt_hdl, const struct ipa_ep_cfg_mode *ipa_ep_cfg) { return -EPERM; } static inline int ipa_cfg_ep_aggr(u32 clnt_hdl, const struct ipa_ep_cfg_aggr *ipa_ep_cfg) { return -EPERM; } static inline int ipa_cfg_ep_deaggr(u32 clnt_hdl, const struct ipa_ep_cfg_deaggr *ipa_ep_cfg) { return -EPERM; } static inline int ipa_cfg_ep_route(u32 clnt_hdl, const struct ipa_ep_cfg_route *ipa_ep_cfg) { return -EPERM; } static inline int ipa_cfg_ep_holb(u32 clnt_hdl, const struct ipa_ep_cfg_holb *ipa_ep_cfg) { return -EPERM; } static inline int ipa_cfg_ep_cfg(u32 clnt_hdl, const struct ipa_ep_cfg_cfg *ipa_ep_cfg) { return -EPERM; } static inline int ipa_cfg_ep_metadata_mask(u32 clnt_hdl, const struct ipa_ep_cfg_metadata_mask *ipa_ep_cfg) { return -EPERM; } static inline int ipa_cfg_ep_ctrl(u32 clnt_hdl, const struct ipa_ep_cfg_ctrl *ep_ctrl) { return -EPERM; } /* * Header removal / addition */ static inline int ipa_add_hdr(struct ipa_ioc_add_hdr *hdrs) { return -EPERM; } static inline int ipa_del_hdr(struct ipa_ioc_del_hdr *hdls) { return -EPERM; } static inline int ipa_commit_hdr(void) { return -EPERM; } static inline int ipa_reset_hdr(void) { return -EPERM; } static inline int ipa_get_hdr(struct ipa_ioc_get_hdr *lookup) { return -EPERM; } static inline int ipa_put_hdr(u32 hdr_hdl) { return -EPERM; } static inline int ipa_copy_hdr(struct ipa_ioc_copy_hdr *copy) { return -EPERM; } /* * Header Processing Context */ static inline int ipa_add_hdr_proc_ctx( struct ipa_ioc_add_hdr_proc_ctx *proc_ctxs) { return -EPERM; } static inline int ipa_del_hdr_proc_ctx(struct ipa_ioc_del_hdr_proc_ctx *hdls) { return -EPERM; } /* * Routing */ static inline int ipa_add_rt_rule(struct ipa_ioc_add_rt_rule *rules) { return -EPERM; } static inline int ipa_del_rt_rule(struct ipa_ioc_del_rt_rule *hdls) { return -EPERM; } static inline int ipa_commit_rt(enum ipa_ip_type ip) { return -EPERM; } static inline int ipa_reset_rt(enum ipa_ip_type ip) { return -EPERM; } static inline int ipa_get_rt_tbl(struct ipa_ioc_get_rt_tbl *lookup) { return -EPERM; } static inline int ipa_put_rt_tbl(u32 rt_tbl_hdl) { return -EPERM; } static inline int ipa_query_rt_index(struct ipa_ioc_get_rt_tbl_indx *in) { return -EPERM; } static inline int ipa_mdfy_rt_rule(struct ipa_ioc_mdfy_rt_rule *rules) { return -EPERM; } /* * Filtering */ static inline int ipa_add_flt_rule(struct ipa_ioc_add_flt_rule *rules) { return -EPERM; } static inline int ipa_del_flt_rule(struct ipa_ioc_del_flt_rule *hdls) { return -EPERM; } static inline int ipa_mdfy_flt_rule(struct ipa_ioc_mdfy_flt_rule *rules) { return -EPERM; } static inline int ipa_commit_flt(enum ipa_ip_type ip) { return -EPERM; } static inline int ipa_reset_flt(enum ipa_ip_type ip) { return -EPERM; } /* * NAT */ static inline int allocate_nat_device(struct ipa_ioc_nat_alloc_mem *mem) { return -EPERM; } static inline int ipa_nat_init_cmd(struct ipa_ioc_v4_nat_init *init) { return -EPERM; } static inline int ipa_nat_dma_cmd(struct ipa_ioc_nat_dma_cmd *dma) { return -EPERM; } static inline int ipa_nat_del_cmd(struct ipa_ioc_v4_nat_del *del) { return -EPERM; } /* * Messaging */ static inline int ipa_send_msg(struct ipa_msg_meta *meta, void *buff, ipa_msg_free_fn callback) { return -EPERM; } static inline int ipa_register_pull_msg(struct ipa_msg_meta *meta, ipa_msg_pull_fn callback) { return -EPERM; } static inline int ipa_deregister_pull_msg(struct ipa_msg_meta *meta) { return -EPERM; } /* * Interface */ static inline int ipa_register_intf(const char *name, const struct ipa_tx_intf *tx, const struct ipa_rx_intf *rx) { return -EPERM; } static inline int ipa_register_intf_ext(const char *name, const struct ipa_tx_intf *tx, const struct ipa_rx_intf *rx, const struct ipa_ext_intf *ext) { return -EPERM; } static inline int ipa_deregister_intf(const char *name) { return -EPERM; } /* * Aggregation */ static inline int ipa_set_aggr_mode(enum ipa_aggr_mode mode) { return -EPERM; } static inline int ipa_set_qcncm_ndp_sig(char sig[3]) { return -EPERM; } static inline int ipa_set_single_ndp_per_mbim(bool enable) { return -EPERM; } /* * Data path */ static inline int ipa_tx_dp(enum ipa_client_type dst, struct sk_buff *skb, struct ipa_tx_meta *metadata) { return -EPERM; } /* * To transfer multiple data packets */ static inline int ipa_tx_dp_mul( enum ipa_client_type dst, struct ipa_tx_data_desc *data_desc) { return -EPERM; } static inline void ipa_free_skb(struct ipa_rx_data *rx_in) { return; } /* * System pipes */ static inline u16 ipa_get_smem_restr_bytes(void) { return -EPERM; } static inline int ipa_setup_sys_pipe(struct ipa_sys_connect_params *sys_in, u32 *clnt_hdl) { return -EPERM; } static inline int ipa_teardown_sys_pipe(u32 clnt_hdl) { return -EPERM; } static inline int ipa_connect_wdi_pipe(struct ipa_wdi_in_params *in, struct ipa_wdi_out_params *out) { return -EPERM; } static inline int ipa_disconnect_wdi_pipe(u32 clnt_hdl) { return -EPERM; } static inline int ipa_enable_wdi_pipe(u32 clnt_hdl) { return -EPERM; } static inline int ipa_disable_wdi_pipe(u32 clnt_hdl) { return -EPERM; } static inline int ipa_resume_wdi_pipe(u32 clnt_hdl) { return -EPERM; } static inline int ipa_suspend_wdi_pipe(u32 clnt_hdl) { return -EPERM; } static inline int ipa_uc_wdi_get_dbpa( struct ipa_wdi_db_params *out) { return -EPERM; } static inline int ipa_uc_reg_rdyCB( struct ipa_wdi_uc_ready_params *param) { return -EPERM; } /* * Resource manager */ static inline int ipa_rm_create_resource( struct ipa_rm_create_params *create_params) { return -EPERM; } static inline int ipa_rm_delete_resource( enum ipa_rm_resource_name resource_name) { return -EPERM; } static inline int ipa_rm_register(enum ipa_rm_resource_name resource_name, struct ipa_rm_register_params *reg_params) { return -EPERM; } static inline int ipa_rm_set_perf_profile( enum ipa_rm_resource_name resource_name, struct ipa_rm_perf_profile *profile) { return -EPERM; } static inline int ipa_rm_deregister(enum ipa_rm_resource_name resource_name, struct ipa_rm_register_params *reg_params) { return -EPERM; } static inline int ipa_rm_add_dependency( enum ipa_rm_resource_name resource_name, enum ipa_rm_resource_name depends_on_name) { return -EPERM; } static inline int ipa_rm_add_dependency_sync( enum ipa_rm_resource_name resource_name, enum ipa_rm_resource_name depends_on_name) { return -EPERM; } static inline int ipa_rm_delete_dependency( enum ipa_rm_resource_name resource_name, enum ipa_rm_resource_name depends_on_name) { return -EPERM; } static inline int ipa_rm_request_resource( enum ipa_rm_resource_name resource_name) { return -EPERM; } static inline int ipa_rm_release_resource( enum ipa_rm_resource_name resource_name) { return -EPERM; } static inline int ipa_rm_notify_completion(enum ipa_rm_event event, enum ipa_rm_resource_name resource_name) { return -EPERM; } static inline int ipa_rm_inactivity_timer_init( enum ipa_rm_resource_name resource_name, unsigned long msecs) { return -EPERM; } static inline int ipa_rm_inactivity_timer_destroy( enum ipa_rm_resource_name resource_name) { return -EPERM; } static inline int ipa_rm_inactivity_timer_request_resource( enum ipa_rm_resource_name resource_name) { return -EPERM; } static inline int ipa_rm_inactivity_timer_release_resource( enum ipa_rm_resource_name resource_name) { return -EPERM; } /* * Tethering bridge (Rmnet / MBIM) */ static inline int teth_bridge_init(struct teth_bridge_init_params *params) { return -EPERM; } static inline int teth_bridge_disconnect(enum ipa_client_type client) { return -EPERM; } static inline int teth_bridge_connect(struct teth_bridge_connect_params *connect_params) { return -EPERM; } /* * Tethering client info */ static inline void ipa_set_client(int index, enum ipacm_client_enum client, bool uplink) { } static inline enum ipacm_client_enum ipa_get_client(int pipe_idx) { return -EPERM; } static inline bool ipa_get_client_uplink(int pipe_idx) { return -EPERM; } /* * ODU bridge */ static inline int odu_bridge_init(struct odu_bridge_params *params) { return -EPERM; } static inline int odu_bridge_disconnect(void) { return -EPERM; } static inline int odu_bridge_connect(void) { return -EPERM; } static inline int odu_bridge_tx_dp(struct sk_buff *skb, struct ipa_tx_meta *metadata) { return -EPERM; } static inline int odu_bridge_cleanup(void) { return -EPERM; } /* * IPADMA */ static inline int ipa_dma_init(void) { return -EPERM; } static inline int ipa_dma_enable(void) { return -EPERM; } static inline int ipa_dma_disable(void) { return -EPERM; } static inline int ipa_dma_sync_memcpy(phys_addr_t dest, phys_addr_t src , int len) { return -EPERM; } static inline int ipa_dma_async_memcpy(phys_addr_t dest, phys_addr_t src , int len, void (*user_cb)(void *user1), void *user_param) { return -EPERM; } static inline int ipa_dma_uc_memcpy(phys_addr_t dest, phys_addr_t src, int len) { return -EPERM; } static inline void ipa_dma_destroy(void) { return; } /* * MHI */ static inline int ipa_mhi_init(struct ipa_mhi_init_params *params) { return -EPERM; } static inline int ipa_mhi_start(struct ipa_mhi_start_params *params) { return -EPERM; } static inline int ipa_mhi_connect_pipe(struct ipa_mhi_connect_params *in, u32 *clnt_hdl) { return -EPERM; } static inline int ipa_mhi_disconnect_pipe(u32 clnt_hdl) { return -EPERM; } static inline int ipa_mhi_suspend(bool force) { return -EPERM; } static inline int ipa_mhi_resume(void) { return -EPERM; } static inline int ipa_mhi_destroy(void) { return -EPERM; } /* * mux id */ static inline int ipa_write_qmap_id(struct ipa_ioc_write_qmapid *param_in) { return -EPERM; } /* * interrupts */ static inline int ipa_add_interrupt_handler(enum ipa_irq_type interrupt, ipa_irq_handler_t handler, bool deferred_flag, void *private_data) { return -EPERM; } static inline int ipa_remove_interrupt_handler(enum ipa_irq_type interrupt) { return -EPERM; } /* * Miscellaneous */ static inline void ipa_bam_reg_dump(void) { return; } static inline bool ipa_emb_ul_pipes_empty(void) { return false; } static inline int ipa_get_wdi_stats(struct IpaHwStatsWDIInfoData_t *stats) { return -EPERM; } static inline int ipa_get_ep_mapping(enum ipa_client_type client) { return -EPERM; } static inline bool ipa_is_ready(void) { return false; } static inline void ipa_proxy_clk_vote(void) { } static inline void ipa_proxy_clk_unvote(void) { } static inline enum ipa_hw_type ipa_get_hw_type(void) { return IPA_HW_None; } static inline bool ipa_is_client_handle_valid(u32 clnt_hdl) { return -EINVAL; } static inline enum ipa_client_type ipa_get_client_mapping(int pipe_idx) { return -EINVAL; } static inline enum ipa_rm_resource_name ipa_get_rm_resource_from_ep( int pipe_idx) { return -EFAULT; } static inline bool ipa_get_modem_cfg_emb_pipe_flt(void) { return -EINVAL; } static inline struct device *ipa_get_dma_dev(void) { return NULL; } static inline struct iommu_domain *ipa_get_smmu_domain(void) { return NULL; } static inline int ipa_create_wdi_mapping(u32 num_buffers, struct ipa_wdi_buffer_info *info) { return -EINVAL; } static inline int ipa_release_wdi_mapping(u32 num_buffers, struct ipa_wdi_buffer_info *info) { return -EINVAL; } static inline int ipa_disable_apps_wan_cons_deaggr(void) { return -EINVAL; } #endif /* CONFIG_IPA*/ #endif /* _IPA_H_ */