freebsd-skq/sys/contrib/alpine-hal/al_hal_udma_config.h
Wojciech Macek 3fc36ee018 Update Annapurna Alpine HAL to a newer version.
HAL version: 2.7a

Import from vendor-sys, r305475
2016-09-06 14:59:13 +00:00

549 lines
18 KiB
C

/*******************************************************************************
Copyright (C) 2015 Annapurna Labs Ltd.
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License Agreement.
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*******************************************************************************/
/**
* @defgroup group_udma_config UDMA Config
* @ingroup group_udma_api
* UDMA Config API
* @{
* @file al_hal_udma_config.h
*
* @brief C Header file for the Universal DMA HAL driver for configuration APIs
*
*/
#ifndef __AL_HAL_UDMA_CONFIG_H__
#define __AL_HAL_UDMA_CONFIG_H__
#include <al_hal_udma.h>
/* *INDENT-OFF* */
#ifdef __cplusplus
extern "C" {
#endif
/* *INDENT-ON* */
/** Scheduling mode */
enum al_udma_sch_mode {
STRICT, /* Strict */
SRR, /* Simple Sound Rubin */
DWRR /* Deficit Weighted Round Rubin */
};
/** AXI configuration */
struct al_udma_axi_conf {
uint32_t axi_timeout; /* Timeout for AXI transactions */
uint8_t arb_promotion; /* arbitration promotion */
al_bool swap_8_bytes; /* enable 8 bytes swap instead of 4 bytes */
al_bool swap_s2m_data;
al_bool swap_s2m_desc;
al_bool swap_m2s_data;
al_bool swap_m2s_desc;
};
/** UDMA AXI M2S configuration */
struct al_udma_axi_submaster {
uint8_t id; /* AXI ID */
uint8_t cache_type;
uint8_t burst;
uint16_t used_ext;
uint8_t bus_size;
uint8_t qos;
uint8_t prot;
uint8_t max_beats;
};
/** UDMA AXI M2S configuration */
struct al_udma_m2s_axi_conf {
struct al_udma_axi_submaster comp_write;
struct al_udma_axi_submaster data_read;
struct al_udma_axi_submaster desc_read;
al_bool break_on_max_boundary; /* Data read break on max boundary */
uint8_t min_axi_beats; /* Minimum burst for writing completion desc. */
uint8_t ostand_max_data_read;
uint8_t ostand_max_desc_read;
uint8_t ostand_max_comp_req;
uint8_t ostand_max_comp_write;
};
/** UDMA AXI S2M configuration */
struct al_udma_s2m_axi_conf {
struct al_udma_axi_submaster data_write;
struct al_udma_axi_submaster desc_read;
struct al_udma_axi_submaster comp_write;
al_bool break_on_max_boundary; /* Data read break on max boundary */
uint8_t min_axi_beats; /* Minimum burst for writing completion desc. */
uint8_t ostand_max_data_req;
uint8_t ostand_max_data_write;
uint8_t ostand_max_comp_req;
uint8_t ostand_max_comp_write;
uint8_t ostand_max_desc_read;
uint8_t ack_fifo_depth; /* size of the stream application ack fifo */
};
/** M2S error logging */
struct al_udma_err_log {
uint32_t error_status;
uint32_t header[4];
};
/** M2S max packet size configuration */
struct al_udma_m2s_pkt_len_conf {
uint32_t max_pkt_size;
al_bool encode_64k_as_zero;
};
/** M2S Descriptor Prefetch configuration */
struct al_udma_m2s_desc_pref_conf {
uint8_t desc_fifo_depth;
enum al_udma_sch_mode sch_mode; /* Scheduling mode
* (either strict or RR) */
uint8_t max_desc_per_packet; /* max number of descriptors to
* prefetch */
/* in one burst (5b) */
uint8_t pref_thr;
uint8_t min_burst_above_thr; /* min burst size when fifo above
* pref_thr (4b)
*/
uint8_t min_burst_below_thr; /* min burst size when fifo below
* pref_thr (4b)
*/
uint8_t max_pkt_limit; /* maximum number of packets in the data
* read FIFO, defined based on header
* FIFO size
*/
uint16_t data_fifo_depth; /* maximum number of data beats in the
* data read FIFO,
* defined based on header FIFO size
*/
};
/** S2M Descriptor Prefetch configuration */
struct al_udma_s2m_desc_pref_conf {
uint8_t desc_fifo_depth;
enum al_udma_sch_mode sch_mode; /* Scheduling mode *
* (either strict or RR)
*/
al_bool q_promotion; /* enable promotion */
al_bool force_promotion; /* force promotion */
al_bool en_pref_prediction; /* enable prefetch prediction */
uint8_t promotion_th; /* Threshold for queue promotion */
uint8_t pref_thr;
uint8_t min_burst_above_thr; /* min burst size when fifo above
* pref_thr (4b)
*/
uint8_t min_burst_below_thr; /* min burst size when fifo below
* pref_thr (4b)
*/
uint8_t a_full_thr; /* almost full threshold */
};
/** S2M Data write configuration */
struct al_udma_s2m_data_write_conf {
uint16_t data_fifo_depth; /* maximum number of data beats in the
* data write FIFO, defined based on
* header FIFO size
*/
uint8_t max_pkt_limit; /* maximum number of packets in the
* data write FIFO,defined based on
* header FIFO size
*/
uint8_t fifo_margin;
uint32_t desc_wait_timer; /* waiting time for the host to write
* new descriptor to the queue
* (for the current packet in process)
*/
uint32_t flags; /* bitwise of flags of s2m
* data_cfg_2 register
*/
};
/** S2M Completion configuration */
struct al_udma_s2m_completion_conf {
uint8_t desc_size; /* Size of completion descriptor
* in words
*/
al_bool cnt_words; /* Completion fifo in use counter:
* AL_TRUE words, AL_FALS descriptors
*/
al_bool q_promotion; /* Enable promotion of the current
* unack in progress */
/* in the completion write scheduler */
al_bool force_rr; /* force RR arbitration in the
* scheduler
*/
// uint8_t ack_fifo_depth; /* size of the stream application ack fifo */
uint8_t q_free_min; /* minimum number of free completion
* entries
*/
/* to qualify for promotion */
uint16_t comp_fifo_depth; /* Size of completion fifo in words */
uint16_t unack_fifo_depth; /* Size of unacked fifo in descs */
uint32_t timeout; /* Ack timout from stream interface */
};
/** M2S UDMA DWRR configuration */
struct al_udma_m2s_dwrr_conf {
al_bool enable_dwrr;
uint8_t inc_factor;
uint8_t weight;
al_bool pkt_mode;
uint32_t deficit_init_val;
};
/** M2S DMA Rate Limitation mode */
struct al_udma_m2s_rlimit_mode {
al_bool pkt_mode_en;
uint16_t short_cycle_sz;
uint32_t token_init_val;
};
/** M2S Stream/Q Rate Limitation */
struct al_udma_m2s_rlimit_cfg {
uint32_t max_burst_sz; /* maximum number of accumulated bytes in the
* token counter
*/
uint16_t long_cycle_sz; /* number of short cycles between token fill */
uint32_t long_cycle; /* number of bits to add in each long cycle */
uint32_t short_cycle; /* number of bits to add in each cycle */
uint32_t mask; /* mask the different types of rate limiters */
};
enum al_udma_m2s_rlimit_action {
AL_UDMA_STRM_RLIMIT_ENABLE,
AL_UDMA_STRM_RLIMIT_PAUSE,
AL_UDMA_STRM_RLIMIT_RESET
};
/** M2S UDMA Q scheduling configuration */
struct al_udma_m2s_q_dwrr_conf {
uint32_t max_deficit_cnt_sz; /*maximum number of accumulated bytes
* in the deficit counter
*/
al_bool strict; /* bypass DWRR */
uint8_t axi_qos;
uint16_t q_qos;
uint8_t weight;
};
/** M2S UDMA / UDMA Q scheduling configuration */
struct al_udma_m2s_sc {
enum al_udma_sch_mode sch_mode; /* Scheduling Mode */
struct al_udma_m2s_dwrr_conf dwrr; /* DWRR configuration */
};
/** UDMA / UDMA Q rate limitation configuration */
struct al_udma_m2s_rlimit {
struct al_udma_m2s_rlimit_mode rlimit_mode;
/* rate limitation enablers */
#if 0
struct al_udma_tkn_bkt_conf token_bkt; /* Token Bucket configuration */
#endif
};
/** UDMA Data read configuration */
struct al_udma_m2s_data_rd_conf {
uint8_t max_rd_d_beats; /* max burst size for reading data
* (in AXI beats-128b) (5b)
*/
uint8_t max_rd_d_out_req; /* max number of outstanding data
* read requests (6b)
*/
uint16_t max_rd_d_out_beats; /* max num. of data read beats (10b) */
};
/** M2S UDMA completion and application timeouts */
struct al_udma_m2s_comp_timeouts {
enum al_udma_sch_mode sch_mode; /* Scheduling mode
* (either strict or RR)
*/
al_bool enable_q_promotion;
uint8_t unack_fifo_depth; /* unacked desc fifo size */
uint8_t comp_fifo_depth; /* desc fifo size */
uint32_t coal_timeout; /* (24b) */
uint32_t app_timeout; /* (24b) */
};
/** S2M UDMA per queue completion configuration */
struct al_udma_s2m_q_comp_conf {
al_bool dis_comp_coal; /* disable completion coalescing */
al_bool en_comp_ring_update; /* enable writing completion descs */
uint32_t comp_timer; /* completion coalescing timer */
al_bool en_hdr_split; /* enable header split */
al_bool force_hdr_split; /* force header split */
uint16_t hdr_split_size; /* size used for the header split */
uint8_t q_qos; /* queue QoS */
};
/** UDMA per queue Target-ID control configuration */
struct al_udma_gen_tgtid_q_conf {
/* Enable usage of the Target-ID per queue according to 'tgtid' */
al_bool queue_en;
/* Enable usage of the Target-ID from the descriptor buffer address 63:48 */
al_bool desc_en;
/* Target-ID to be applied when 'queue_en' is asserted */
uint16_t tgtid;
/* TGTADDR to be applied to msbs when 'desc_en' is asserted.
* Relevant for revisions >= AL_UDMA_REV_ID_REV2 */
uint16_t tgtaddr;
};
/** UDMA Target-ID control configuration */
struct al_udma_gen_tgtid_conf {
/* TX queue configuration */
struct al_udma_gen_tgtid_q_conf tx_q_conf[DMA_MAX_Q];
/* RX queue configuration */
struct al_udma_gen_tgtid_q_conf rx_q_conf[DMA_MAX_Q];
};
/** UDMA Target-ID MSIX control configuration */
struct al_udma_gen_tgtid_msix_conf {
/* Enable write to all TGTID_n registers in the MSI-X Controller */
al_bool access_en;
/* use TGTID_n [7:0] from MSI-X Controller for MSI-X message */
al_bool sel;
};
/* Report Error - to be used for abort */
void al_udma_err_report(struct al_udma *udma);
/* Statistics - TBD */
void al_udma_stats_get(struct al_udma *udma);
/* Misc configurations */
/* Configure AXI configuration */
int al_udma_axi_set(struct udma_gen_axi *axi_regs,
struct al_udma_axi_conf *axi);
/* Configure UDMA AXI M2S configuration */
int al_udma_m2s_axi_set(struct al_udma *udma,
struct al_udma_m2s_axi_conf *axi_m2s);
/* Configure UDMA AXI S2M configuration */
int al_udma_s2m_axi_set(struct al_udma *udma,
struct al_udma_s2m_axi_conf *axi_s2m);
/* Configure M2S packet len */
int al_udma_m2s_packet_size_cfg_set(struct al_udma *udma,
struct al_udma_m2s_pkt_len_conf *conf);
/* Configure M2S UDMA descriptor prefetch */
int al_udma_m2s_pref_set(struct al_udma *udma,
struct al_udma_m2s_desc_pref_conf *conf);
int al_udma_m2s_pref_get(struct al_udma *udma,
struct al_udma_m2s_desc_pref_conf *conf);
/* set m2s packet's max descriptors (including meta descriptors) */
#define AL_UDMA_M2S_MAX_ALLOWED_DESCS_PER_PACKET 31
int al_udma_m2s_max_descs_set(struct al_udma *udma, uint8_t max_descs);
/* set s2m packets' max descriptors */
#define AL_UDMA_S2M_MAX_ALLOWED_DESCS_PER_PACKET 31
int al_udma_s2m_max_descs_set(struct al_udma *udma, uint8_t max_descs);
/* Configure S2M UDMA descriptor prefetch */
int al_udma_s2m_pref_set(struct al_udma *udma,
struct al_udma_s2m_desc_pref_conf *conf);
int al_udma_m2s_pref_get(struct al_udma *udma,
struct al_udma_m2s_desc_pref_conf *conf);
/* Configure S2M UDMA data write */
int al_udma_s2m_data_write_set(struct al_udma *udma,
struct al_udma_s2m_data_write_conf *conf);
/* Configure the s2m full line write feature */
int al_udma_s2m_full_line_write_set(struct al_udma *umda, al_bool enable);
/* Configure S2M UDMA completion */
int al_udma_s2m_completion_set(struct al_udma *udma,
struct al_udma_s2m_completion_conf *conf);
/* Configure the M2S UDMA scheduling mode */
int al_udma_m2s_sc_set(struct al_udma *udma,
struct al_udma_m2s_dwrr_conf *sched);
/* Configure the M2S UDMA rate limitation */
int al_udma_m2s_rlimit_set(struct al_udma *udma,
struct al_udma_m2s_rlimit_mode *mode);
int al_udma_m2s_rlimit_reset(struct al_udma *udma);
/* Configure the M2S Stream rate limitation */
int al_udma_m2s_strm_rlimit_set(struct al_udma *udma,
struct al_udma_m2s_rlimit_cfg *conf);
int al_udma_m2s_strm_rlimit_act(struct al_udma *udma,
enum al_udma_m2s_rlimit_action act);
/* Configure the M2S UDMA Q rate limitation */
int al_udma_m2s_q_rlimit_set(struct al_udma_q *udma_q,
struct al_udma_m2s_rlimit_cfg *conf);
int al_udma_m2s_q_rlimit_act(struct al_udma_q *udma_q,
enum al_udma_m2s_rlimit_action act);
/* Configure the M2S UDMA Q scheduling mode */
int al_udma_m2s_q_sc_set(struct al_udma_q *udma_q,
struct al_udma_m2s_q_dwrr_conf *conf);
int al_udma_m2s_q_sc_pause(struct al_udma_q *udma_q, al_bool set);
int al_udma_m2s_q_sc_reset(struct al_udma_q *udma_q);
/* M2S UDMA completion and application timeouts */
int al_udma_m2s_comp_timeouts_set(struct al_udma *udma,
struct al_udma_m2s_comp_timeouts *conf);
int al_udma_m2s_comp_timeouts_get(struct al_udma *udma,
struct al_udma_m2s_comp_timeouts *conf);
/* UDMA get revision */
static INLINE unsigned int al_udma_get_revision(struct unit_regs __iomem *unit_regs)
{
return (al_reg_read32(&unit_regs->gen.dma_misc.revision)
& UDMA_GEN_DMA_MISC_REVISION_PROGRAMMING_ID_MASK) >>
UDMA_GEN_DMA_MISC_REVISION_PROGRAMMING_ID_SHIFT;
}
/**
* S2M UDMA Configure the expected behavior of Rx/S2M UDMA when there are no Rx Descriptors.
*
* @param udma
* @param drop_packet when set to true, the UDMA will drop packet.
* @param gen_interrupt when set to true, the UDMA will generate
* no_desc_hint interrupt when a packet received and the UDMA
* doesn't find enough free descriptors for it.
* @param wait_for_desc_timeout timeout in SB cycles to wait for new
* descriptors before dropping the packets.
* Notes:
* - The hint interrupt is raised immediately without waiting
* for new descs.
* - value 0 means wait for ever.
*
* Notes:
* - When get_interrupt is set, the API won't program the iofic to unmask this
* interrupt, in this case the callee should take care for doing that unmask
* using the al_udma_iofic_config() API.
*
* - The hardware's default configuration is: no drop packet, generate hint
* interrupt.
* - This API must be called once and before enabling the UDMA
*
* @return 0 if no error found.
*/
int al_udma_s2m_no_desc_cfg_set(struct al_udma *udma, al_bool drop_packet, al_bool gen_interrupt, uint32_t wait_for_desc_timeout);
/**
* S2M UDMA configure a queue's completion update
*
* @param q_udma
* @param enable set to true to enable completion update
*
* completion update better be disabled for tx queues as those descriptors
* doesn't carry useful information, thus disabling it saves DMA accesses.
*
* @return 0 if no error found.
*/
int al_udma_s2m_q_compl_updade_config(struct al_udma_q *udma_q, al_bool enable);
/**
* S2M UDMA configure a queue's completion descriptors coalescing
*
* @param q_udma
* @param enable set to true to enable completion coalescing
* @param coal_timeout in South Bridge cycles.
*
* @return 0 if no error found.
*/
int al_udma_s2m_q_compl_coal_config(struct al_udma_q *udma_q, al_bool enable, uint32_t coal_timeout);
/**
* S2M UDMA configure completion descriptors write burst parameters
*
* @param udma
* @param burst_size completion descriptors write burst size in bytes.
*
* @return 0 if no error found.
*/int al_udma_s2m_compl_desc_burst_config(struct al_udma *udma, uint16_t
burst_size);
/**
* S2M UDMA configure a queue's completion header split
*
* @param q_udma
* @param enable set to true to enable completion header split
* @param force_hdr_split the header split length will be taken from the queue configuration
* @param hdr_len header split length.
*
* @return 0 if no error found.
*/
int al_udma_s2m_q_compl_hdr_split_config(struct al_udma_q *udma_q,
al_bool enable,
al_bool force_hdr_split,
uint32_t hdr_len);
/* S2M UDMA per queue completion configuration */
int al_udma_s2m_q_comp_set(struct al_udma_q *udma_q,
struct al_udma_s2m_q_comp_conf *conf);
/** UDMA Target-ID control configuration per queue */
void al_udma_gen_tgtid_conf_queue_set(
struct unit_regs *unit_regs,
struct al_udma_gen_tgtid_conf *conf,
uint32_t qid);
/** UDMA Target-ID control configuration */
void al_udma_gen_tgtid_conf_set(
struct unit_regs __iomem *unit_regs,
struct al_udma_gen_tgtid_conf *conf);
/** UDMA Target-ID MSIX control configuration */
void al_udma_gen_tgtid_msix_conf_set(
struct unit_regs __iomem *unit_regs,
struct al_udma_gen_tgtid_msix_conf *conf);
/* *INDENT-OFF* */
#ifdef __cplusplus
}
#endif
/* *INDENT-ON* */
/** @} end of UDMA config group */
#endif /* __AL_HAL_UDMA_CONFIG_H__ */