diff options
Diffstat (limited to 'drivers/staging/csr/csr_wifi_hip_card_sdio.h')
-rw-r--r-- | drivers/staging/csr/csr_wifi_hip_card_sdio.h | 702 |
1 files changed, 702 insertions, 0 deletions
diff --git a/drivers/staging/csr/csr_wifi_hip_card_sdio.h b/drivers/staging/csr/csr_wifi_hip_card_sdio.h new file mode 100644 index 000000000000..dc2ed70f7edd --- /dev/null +++ b/drivers/staging/csr/csr_wifi_hip_card_sdio.h @@ -0,0 +1,702 @@ +/***************************************************************************** + + (c) Cambridge Silicon Radio Limited 2011 + All rights reserved and confidential information of CSR + + Refer to LICENSE.txt included with this source for details + on the license terms. + +*****************************************************************************/ + +/* + * --------------------------------------------------------------------------- + * + * FILE: csr_wifi_hip_card_sdio.h + * + * PURPOSE: + * Internal header for Card API for SDIO. + * --------------------------------------------------------------------------- + */ +#ifndef __CARD_SDIO_H__ +#define __CARD_SDIO_H__ + +#ifdef __cplusplus +extern "C" { +#endif + +#include "csr_wifi_hip_unifi.h" +#include "csr_wifi_hip_unifi_udi.h" +#include "csr_wifi_hip_unifihw.h" +#include "csr_wifi_hip_unifiversion.h" +#ifndef CSR_WIFI_HIP_TA_DISABLE +#include "csr_wifi_hip_ta_sampling.h" +#endif +#include "csr_wifi_hip_xbv.h" +#include "csr_wifi_hip_chiphelper.h" + + +/* + * + * Configuration items. + * Which of these should go in a platform unifi_config.h file? + * + */ + +/* + * When the traffic queues contain more signals than there is space for on + * UniFi, a limiting algorithm comes into play. + * If a traffic queue has enough slots free to buffer more traffic from the + * network stack, then the following check is applied. The number of free + * slots is RESUME_XMIT_THRESHOLD. + */ +#define RESUME_XMIT_THRESHOLD 4 + + +/* + * When reading signals from UniFi, the host processes pending all signals + * and then acknowledges them together in a single write to update the + * to-host-chunks-read location. + * When there is more than one bulk data transfer (e.g. one received data + * packet and a request for the payload data of a transmitted packet), the + * update can be delayed significantly. This ties up resources on chip. + * + * To remedy this problem, to-host-chunks-read is updated after processing + * a signal if TO_HOST_FLUSH_THRESHOLD bytes of bulk data have been + * transferred since the last update. + */ +#define TO_HOST_FLUSH_THRESHOLD (500 * 5) + + +/* SDIO Card Common Control Registers */ +#define SDIO_CCCR_SDIO_REVISION (0x00) +#define SDIO_SD_SPEC_REVISION (0x01) +#define SDIO_IO_ENABLE (0x02) +#define SDIO_IO_READY (0x03) +#define SDIO_INT_ENABLE (0x04) +#define SDIO_INT_PENDING (0x05) +#define SDIO_IO_ABORT (0x06) +#define SDIO_BUS_IFACE_CONTROL (0x07) +#define SDIO_CARD_CAPABILOTY (0x08) +#define SDIO_COMMON_CIS_POINTER (0x09) +#define SDIO_BUS_SUSPEND (0x0C) +#define SDIO_FUNCTION_SELECT (0x0D) +#define SDIO_EXEC_FLAGS (0x0E) +#define SDIO_READY_FLAGS (0x0F) +#define SDIO_FN0_BLOCK_SIZE (0x10) +#define SDIO_POWER_CONTROL (0x12) +#define SDIO_VENDOR_START (0xF0) + +#define SDIO_CSR_HOST_WAKEUP (0xf0) +#define SDIO_CSR_HOST_INT_CLEAR (0xf1) +#define SDIO_CSR_FROM_HOST_SCRATCH0 (0xf2) +#define SDIO_CSR_FROM_HOST_SCRATCH1 (0xf3) +#define SDIO_CSR_TO_HOST_SCRATCH0 (0xf4) +#define SDIO_CSR_TO_HOST_SCRATCH1 (0xf5) +#define SDIO_CSR_FUNC_EN (0xf6) +#define SDIO_CSR_CSPI_MODE (0xf7) +#define SDIO_CSR_CSPI_STATUS (0xf8) +#define SDIO_CSR_CSPI_PADDING (0xf9) + + +#define UNIFI_SD_INT_ENABLE_IENM 0x0001 /* Master INT Enable */ + +#ifdef CSR_PRE_ALLOC_NET_DATA +#define BULK_DATA_PRE_ALLOC_NUM 16 +#endif + +/* + * Structure to hold configuration information read from UniFi. + */ +typedef struct +{ + /* + * The version of the SDIO signal queues and bulk data pools + * configuration structure. The MSB is the major version number, used to + * indicate incompatible changes. The LSB gives the minor revision number, + * used to indicate changes that maintain backwards compatibility. + */ + u16 version; + + /* + * offset from the start of the shared data memory to the SD IO + * control structure. + */ + u16 sdio_ctrl_offset; + + /* Buffer handle of the from-host signal queue */ + u16 fromhost_sigbuf_handle; + + /* Buffer handle of the to-host signal queue */ + u16 tohost_sigbuf_handle; + + /* + * Maximum number of signal primitive or bulk data command fragments that may be + * pending in the to-hw signal queue. + */ + u16 num_fromhost_sig_frags; + + /* + * Number of signal primitive or bulk data command fragments that must be pending + * in the to-host signal queue before the host will generate an interrupt + * to indicate that it has read a signal. This will usually be the total + * capacity of the to-host signal buffer less the size of the largest signal + * primitive divided by the signal primitive fragment size, but may be set + * to 1 to request interrupts every time that the host read a signal. + * Note that the hw may place more signals in the to-host signal queue + * than indicated by this field. + */ + u16 num_tohost_sig_frags; + + /* + * Number of to-hw bulk data slots. Slots are numbered from 0 (zero) to + * one less than the value in this field + */ + u16 num_fromhost_data_slots; + + /* + * Number of frm-hw bulk data slots. Slots are numbered from 0 (zero) to + * one less than the value in this field + */ + u16 num_tohost_data_slots; + + /* + * Size of the bulk data slots (2 octets) + * The size of the bulk data slots in octets. This will usually be + * the size of the largest MSDU. The value should always be even. + */ + u16 data_slot_size; + + /* + * Indicates that the host has finished the initialisation sequence. + * Initialised to 0x0000 by the firmware, and set to 0x0001 by us. + */ + u16 initialised; + + /* Added by protocol version 0x0001 */ + u32 overlay_size; + + /* Added by protocol version 0x0300 */ + u16 data_slot_round; + u16 sig_frag_size; + + /* Added by protocol version 0x0500 */ + u16 tohost_signal_padding; +} sdio_config_data_t; + +/* + * These values may change with versions of the Host Interface Protocol. + */ +/* + * Size of config info block pointed to by the CSR_SLT_SDIO_SLOT_CONFIG + * entry in the f/w symbol table + */ +#define SDIO_CONFIG_DATA_SIZE 30 + +/* Offset of the INIT flag in the config info block. */ +#define SDIO_INIT_FLAG_OFFSET 0x12 +#define SDIO_TO_HOST_SIG_PADDING_OFFSET 0x1C + + +/* Structure for a bulk data transfer command */ +typedef struct +{ + u16 cmd_and_len; /* bits 12-15 cmd, bits 0-11 len */ + u16 data_slot; /* slot number, perhaps OR'd with SLOT_DIR_TO_HOST */ + u16 offset; + u16 buffer_handle; +} bulk_data_cmd_t; + + +/* Bulk Data signal command values */ +#define SDIO_CMD_SIGNAL 0x00 +#define SDIO_CMD_TO_HOST_TRANSFER 0x01 +#define SDIO_CMD_TO_HOST_TRANSFER_ACK 0x02 /*deprecated*/ +#define SDIO_CMD_FROM_HOST_TRANSFER 0x03 +#define SDIO_CMD_FROM_HOST_TRANSFER_ACK 0x04 /*deprecated*/ +#define SDIO_CMD_CLEAR_SLOT 0x05 +#define SDIO_CMD_OVERLAY_TRANSFER 0x06 +#define SDIO_CMD_OVERLAY_TRANSFER_ACK 0x07 /*deprecated*/ +#define SDIO_CMD_FROM_HOST_AND_CLEAR 0x08 +#define SDIO_CMD_PADDING 0x0f + +#define SLOT_DIR_TO_HOST 0x8000 + + +/* Initialise bulkdata slot + * params: + * bulk_data_desc_t *bulk_data_slot + */ +#define UNIFI_INIT_BULK_DATA(bulk_data_slot) \ + { \ + (bulk_data_slot)->os_data_ptr = NULL; \ + (bulk_data_slot)->data_length = 0; \ + (bulk_data_slot)->os_net_buf_ptr = NULL; \ + (bulk_data_slot)->net_buf_length = 0; \ + } + +/* + * Structure to contain a SIGNAL datagram. + * This is used to build signal queues between the main driver and the + * i/o thread. + * The fields are: + * sigbuf Contains the HIP signal is wire-format (i.e. packed, + * little-endian) + * bulkdata Contains a copy of any associated bulk data + * signal_length The size of the signal in the sigbuf + */ +typedef struct card_signal +{ + u8 sigbuf[UNIFI_PACKED_SIGBUF_SIZE]; + + /* Length of the SIGNAL inside sigbuf */ + u16 signal_length; + + bulk_data_desc_t bulkdata[UNIFI_MAX_DATA_REFERENCES]; +} card_signal_t; + + +/* + * Control structure for a generic ring buffer. + */ +#define UNIFI_QUEUE_NAME_MAX_LENGTH 16 +typedef struct +{ + card_signal_t *q_body; + + /* Num elements in queue (capacity is one less than this!) */ + u16 q_length; + + u16 q_wr_ptr; + u16 q_rd_ptr; + + char name[UNIFI_QUEUE_NAME_MAX_LENGTH]; +} q_t; + + +#define UNIFI_RESERVED_COMMAND_SLOTS 2 + +/* Considering approx 500 us per packet giving 0.5 secs */ +#define UNIFI_PACKETS_INTERVAL 1000 + +/* + * Dynamic slot reservation for QoS + */ +typedef struct +{ + u16 from_host_used_slots[UNIFI_NO_OF_TX_QS]; + u16 from_host_max_slots[UNIFI_NO_OF_TX_QS]; + u16 from_host_reserved_slots[UNIFI_NO_OF_TX_QS]; + + /* Parameters to determine if a queue was active. + If number of packets sent is greater than the threshold + for the queue, the queue is considered active and no + re reservation is done, it is important not to keep this + value too low */ + /* Packets sent during this interval */ + u16 packets_txed[UNIFI_NO_OF_TX_QS]; + u16 total_packets_txed; + + /* Number of packets to see if slots need to be reassigned */ + u16 packets_interval; + + /* Once a queue reaches a stable state, avoid processing */ + u8 queue_stable[UNIFI_NO_OF_TX_QS]; +} card_dynamic_slot_t; + + +/* These are type-safe and don't write incorrect values to the + * structure. */ + +/* Return queue slots used count + * params: + * const q_t *q + * returns: + * u16 + */ +#define CSR_WIFI_HIP_Q_SLOTS_USED(q) \ + (((q)->q_wr_ptr - (q)->q_rd_ptr < 0)? \ + ((q)->q_wr_ptr - (q)->q_rd_ptr + (q)->q_length) : ((q)->q_wr_ptr - (q)->q_rd_ptr)) + +/* Return queue slots free count + * params: + * const q_t *q + * returns: + * u16 + */ +#define CSR_WIFI_HIP_Q_SLOTS_FREE(q) \ + ((q)->q_length - CSR_WIFI_HIP_Q_SLOTS_USED((q)) - 1) + +/* Return slot signal data pointer + * params: + * const q_t *q + * u16 slot + * returns: + * card_signal_t * + */ +#define CSR_WIFI_HIP_Q_SLOT_DATA(q, slot) \ + ((q)->q_body + slot) + +/* Return queue next read slot + * params: + * const q_t *q + * returns: + * u16 slot offset + */ +#define CSR_WIFI_HIP_Q_NEXT_R_SLOT(q) \ + ((q)->q_rd_ptr) + +/* Return queue next write slot + * params: + * const q_t *q + * returns: + * u16 slot offset + */ +#define CSR_WIFI_HIP_Q_NEXT_W_SLOT(q) \ + ((q)->q_wr_ptr) + +/* Return updated queue pointer wrapped around its length + * params: + * const q_t *q + * u16 x amount to add to queue pointer + * returns: + * u16 wrapped queue pointer + */ +#define CSR_WIFI_HIP_Q_WRAP(q, x) \ + ((((x) >= (q)->q_length)?((x) % (q)->q_length) : (x))) + +/* Advance queue read pointer + * params: + * const q_t *q + */ +#define CSR_WIFI_HIP_Q_INC_R(q) \ + ((q)->q_rd_ptr = CSR_WIFI_HIP_Q_WRAP((q), (q)->q_rd_ptr + 1)) + +/* Advance queue write pointer + * params: + * const q_t *q + */ +#define CSR_WIFI_HIP_Q_INC_W(q) \ + ((q)->q_wr_ptr = CSR_WIFI_HIP_Q_WRAP((q), (q)->q_wr_ptr + 1)) + +enum unifi_host_state +{ + UNIFI_HOST_STATE_AWAKE = 0, + UNIFI_HOST_STATE_DROWSY = 1, + UNIFI_HOST_STATE_TORPID = 2 +}; + +typedef struct +{ + bulk_data_desc_t bd; + unifi_TrafficQueue queue; /* Used for dynamic slot reservation */ +} slot_desc_t; + +/* + * Structure describing a UniFi SDIO card. + */ +struct card +{ + /* + * Back pointer for the higher level OS code. This is passed as + * an argument to callbacks (e.g. for received data and indications). + */ + void *ospriv; + + /* + * mapping of HIP slot to MA-PACKET.req host tag, the + * array is indexed by slot numbers and each index stores + * information of the last host tag it was used for + */ + u32 *fh_slot_host_tag_record; + + + /* Info read from Symbol Table during probe */ + u32 build_id; + char build_id_string[128]; + + /* Retrieve from SDIO driver. */ + u16 chip_id; + + /* Read from GBL_CHIP_VERSION. */ + u16 chip_version; + + /* From the SDIO driver (probably 1) */ + u8 function; + + /* This is sused to get the register addresses and things. */ + ChipDescript *helper; + + /* + * Bit mask of PIOs for the loader to waggle during download. + * We assume these are connected to LEDs. The main firmware gets + * the mask from a MIB entry. + */ + s32 loader_led_mask; + + /* + * Support for flow control. When the from-host queue of signals + * is full, we ask the host upper layer to stop sending packets. When + * the queue drains we tell it that it can send packets again. + * We use this flag to remember the current state. + */ +#define card_is_tx_q_paused(card, q) (card->tx_q_paused_flag[q]) +#define card_tx_q_unpause(card, q) (card->tx_q_paused_flag[q] = 0) +#define card_tx_q_pause(card, q) (card->tx_q_paused_flag[q] = 1) + + u16 tx_q_paused_flag[UNIFI_TRAFFIC_Q_MAX + 1 + UNIFI_NO_OF_TX_QS]; /* defensive more than big enough */ + + /* UDI callback for logging UniFi interactions */ + udi_func_t udi_hook; + + u8 bh_reason_host; + u8 bh_reason_unifi; + + /* SDIO clock speed request from OS layer */ + u8 request_max_clock; + + /* Last SDIO clock frequency set */ + u32 sdio_clock_speed; + + /* + * Current host state (copy of value in IOABORT register and + * spinlock to protect it. + */ + enum unifi_host_state host_state; + + enum unifi_low_power_mode low_power_mode; + enum unifi_periodic_wake_mode periodic_wake_mode; + + /* + * Ring buffer of signal structs for a queue of data packets from + * the host. + * The queue is empty when fh_data_q_num_rd == fh_data_q_num_wr. + * To add a packet to the queue, copy it to index given by + * (fh_data_q_num_wr%UNIFI_SOFT_Q_LENGTH) and advance fh_data_q_num_wr. + * To take a packet from the queue, copy data from index given by + * (fh_data_q_num_rd%UNIFI_SOFT_Q_LENGTH) and advance fh_data_q_num_rd. + * fh_data_q_num_rd and fh_data_q_num_rd are both modulo 256. + */ + card_signal_t fh_command_q_body[UNIFI_SOFT_COMMAND_Q_LENGTH]; + q_t fh_command_queue; + + card_signal_t fh_traffic_q_body[UNIFI_NO_OF_TX_QS][UNIFI_SOFT_TRAFFIC_Q_LENGTH]; + q_t fh_traffic_queue[UNIFI_NO_OF_TX_QS]; + + /* + * Signal counts from UniFi SDIO Control Data Structure. + * These are cached and synchronised with the UniFi before and after + * a batch of operations. + * + * These are the modulo-256 count of signals written to or read from UniFi + * The value is incremented for every signal. + */ + s32 from_host_signals_w; + s32 from_host_signals_r; + s32 to_host_signals_r; + s32 to_host_signals_w; + + + /* Should specify buffer size as a number of signals */ + /* + * Enough for 10 th and 10 fh data slots: + * 1 * 10 * 8 = 80 + * 2 * 10 * 8 = 160 + */ +#define UNIFI_FH_BUF_SIZE 1024 + struct sigbuf + { + u8 *buf; /* buffer area */ + u8 *ptr; /* current pos */ + u16 count; /* signal count */ + u16 bufsize; + } fh_buffer; + struct sigbuf th_buffer; + + + /* + * Field to use for the incrementing value to write to the UniFi + * SHARED_IO_INTERRUPT register. + * Flag to say we need to generate an interrupt at end of processing. + */ + u32 unifi_interrupt_seq; + u8 generate_interrupt; + + + /* Pointers to the bulk data slots */ + slot_desc_t *from_host_data; + bulk_data_desc_t *to_host_data; + + + /* + * Index of the next (hopefully) free data slot. + * This is an optimisation that starts searching at a more likely point + * than the beginning. + */ + s16 from_host_data_head; + + /* Dynamic slot allocation for queues */ + card_dynamic_slot_t dynamic_slot_data; + + /* + * SDIO specific fields + */ + + /* Interface pointer for the SDIO library */ + CsrSdioFunction *sdio_if; + + /* Copy of config_data struct from the card */ + sdio_config_data_t config_data; + + /* SDIO address of the Initialised flag and Control Data struct */ + u32 init_flag_addr; + u32 sdio_ctrl_addr; + + /* The last value written to the Shared Data Memory Page register */ + u32 proc_select; + u32 dmem_page; + u32 pmem_page; + + /* SDIO traffic counters limited to 32 bits for Synergy compatibility */ + u32 sdio_bytes_read; + u32 sdio_bytes_written; + + u8 memory_resources_allocated; + + /* UniFi SDIO I/O Block size. */ + u16 sdio_io_block_size; + + /* Pad transfer sizes to SDIO block boundaries */ + u8 sdio_io_block_pad; + + /* Read from the XBV */ + struct FWOV fwov; + +#ifndef CSR_WIFI_HIP_TA_DISABLE + /* TA sampling */ + ta_data_t ta_sampling; +#endif + + /* Auto-coredump */ + s16 request_coredump_on_reset; /* request coredump on next reset */ + struct coredump_buf *dump_buf; /* root node */ + struct coredump_buf *dump_next_write; /* node to fill at next dump */ + struct coredump_buf *dump_cur_read; /* valid node to read, or NULL */ + +#ifdef CSR_WIFI_HIP_DATA_PLANE_PROFILE + struct cmd_profile + { + u32 cmd52_count; + u32 cmd53_count; + u32 tx_count; + u32 tx_cfm_count; + u32 rx_count; + u32 bh_count; + u32 process_count; + u32 protocol_count; + + u32 cmd52_f0_r_count; + u32 cmd52_f0_w_count; + u32 cmd52_r8or16_count; + u32 cmd52_w8or16_count; + u32 cmd52_r16_count; + u32 cmd52_w16_count; + u32 cmd52_r32_count; + + u32 sdio_cmd_signal; + u32 sdio_cmd_clear_slot; + u32 sdio_cmd_to_host; + u32 sdio_cmd_from_host; + u32 sdio_cmd_from_host_and_clear; + } hip_prof; + struct cmd_profile cmd_prof; +#endif + + /* Interrupt processing mode flags */ + u32 intmode; + +#ifdef UNIFI_DEBUG + u8 lsb; +#endif + + /* Historic firmware panic codes */ + u32 panic_data_phy_addr; + u32 panic_data_mac_addr; + u16 last_phy_panic_code; + u16 last_phy_panic_arg; + u16 last_mac_panic_code; + u16 last_mac_panic_arg; +#ifdef CSR_PRE_ALLOC_NET_DATA + bulk_data_desc_t bulk_data_desc_list[BULK_DATA_PRE_ALLOC_NUM]; + u16 prealloc_netdata_r; + u16 prealloc_netdata_w; +#endif +}; /* struct card */ + + +/* Reset types */ +enum unifi_reset_type +{ + UNIFI_COLD_RESET = 1, + UNIFI_WARM_RESET = 2 +}; + +/* + * unifi_set_host_state() implements signalling for waking UniFi from + * deep sleep. The host indicates to UniFi that it is in one of three states: + * Torpid - host has nothing to send, UniFi can go to sleep. + * Drowsy - host has data to send to UniFi. UniFi will respond with an + * SDIO interrupt. When hosts responds it moves to Awake. + * Awake - host has data to transfer, UniFi must stay awake. + * When host has finished, it moves to Torpid. + */ +CsrResult unifi_set_host_state(card_t *card, enum unifi_host_state state); + + +CsrResult unifi_set_proc_select(card_t *card, enum unifi_dbg_processors_select select); +s32 card_read_signal_counts(card_t *card); +bulk_data_desc_t* card_find_data_slot(card_t *card, s16 slot); + + +CsrResult unifi_read32(card_t *card, u32 unifi_addr, u32 *pdata); +CsrResult unifi_readnz(card_t *card, u32 unifi_addr, + void *pdata, u16 len); +s32 unifi_read_shared_count(card_t *card, u32 addr); + +CsrResult unifi_writen(card_t *card, u32 unifi_addr, void *pdata, u16 len); + +CsrResult unifi_bulk_rw(card_t *card, u32 handle, + void *pdata, u32 len, s16 direction); +CsrResult unifi_bulk_rw_noretry(card_t *card, u32 handle, + void *pdata, u32 len, s16 direction); +#define UNIFI_SDIO_READ 0 +#define UNIFI_SDIO_WRITE 1 + +CsrResult unifi_read_8_or_16(card_t *card, u32 unifi_addr, u8 *pdata); +CsrResult unifi_write_8_or_16(card_t *card, u32 unifi_addr, u8 data); +CsrResult unifi_read_direct_8_or_16(card_t *card, u32 addr, u8 *pdata); +CsrResult unifi_write_direct_8_or_16(card_t *card, u32 addr, u8 data); + +CsrResult unifi_read_direct16(card_t *card, u32 addr, u16 *pdata); +CsrResult unifi_read_direct32(card_t *card, u32 addr, u32 *pdata); +CsrResult unifi_read_directn(card_t *card, u32 addr, void *pdata, u16 len); + +CsrResult unifi_write_direct16(card_t *card, u32 addr, u16 data); +CsrResult unifi_write_directn(card_t *card, u32 addr, void *pdata, u16 len); + +CsrResult sdio_read_f0(card_t *card, u32 addr, u8 *pdata); +CsrResult sdio_write_f0(card_t *card, u32 addr, u8 data); + +void unifi_read_panic(card_t *card); +#ifdef CSR_PRE_ALLOC_NET_DATA +void prealloc_netdata_free(card_t *card); +CsrResult prealloc_netdata_alloc(card_t *card); +#endif +/* For diagnostic use */ +void dump(void *mem, u16 len); +void dump16(void *mem, u16 len); + +#ifdef __cplusplus +} +#endif + +#endif /* __CARD_SDIO_H__ */ |