/* Copyright 2008-2012 Freescale Semiconductor, Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of Freescale Semiconductor nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * * ALTERNATIVELY, this software may be distributed under the terms of the * GNU General Public License ("GPL") as published by the Free Software * Foundation, either version 2 of that License or (at your option) any * later version. * * THIS SOFTWARE IS PROVIDED BY Freescale Semiconductor ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL Freescale Semiconductor BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef FSL_BMAN_H #define FSL_BMAN_H #ifdef __cplusplus extern "C" { #endif /* Last updated for v00.79 of the BG */ /* Portal processing (interrupt) sources */ #define BM_PIRQ_RCRI 0x00000002 /* RCR Ring (below threshold) */ #define BM_PIRQ_BSCN 0x00000001 /* Buffer depletion State Change */ /* This wrapper represents a bit-array for the depletion state of the 64 Bman * buffer pools. */ struct bman_depletion { u32 __state[2]; }; #define BMAN_DEPLETION_EMPTY { { 0x00000000, 0x00000000 } } #define BMAN_DEPLETION_FULL { { 0xffffffff, 0xffffffff } } #define __bmdep_word(x) ((x) >> 5) #define __bmdep_shift(x) ((x) & 0x1f) #define __bmdep_bit(x) (0x80000000 >> __bmdep_shift(x)) static inline void bman_depletion_init(struct bman_depletion *c) { c->__state[0] = c->__state[1] = 0; } static inline void bman_depletion_fill(struct bman_depletion *c) { c->__state[0] = c->__state[1] = ~0; } static inline int bman_depletion_get(const struct bman_depletion *c, u8 bpid) { return c->__state[__bmdep_word(bpid)] & __bmdep_bit(bpid); } static inline void bman_depletion_set(struct bman_depletion *c, u8 bpid) { c->__state[__bmdep_word(bpid)] |= __bmdep_bit(bpid); } static inline void bman_depletion_unset(struct bman_depletion *c, u8 bpid) { c->__state[__bmdep_word(bpid)] &= ~__bmdep_bit(bpid); } /* ------------------------------------------------------- */ /* --- Bman data structures (and associated constants) --- */ /* Represents s/w corenet portal mapped data structures */ struct bm_rcr_entry; /* RCR (Release Command Ring) entries */ struct bm_mc_command; /* MC (Management Command) command */ struct bm_mc_result; /* MC result */ /* Code-reduction, define a wrapper for 48-bit buffers. In cases where a buffer * pool id specific to this buffer is needed (BM_RCR_VERB_CMD_BPID_MULTI, * BM_MCC_VERB_ACQUIRE), the 'bpid' field is used. */ struct bm_buffer { union { struct { u8 __reserved1; u8 bpid; u16 hi; /* High 16-bits of 48-bit address */ u32 lo; /* Low 32-bits of 48-bit address */ }; struct { u64 __notaddress:16; u64 addr:48; }; }; } __aligned(8); static inline u64 bm_buffer_get64(const struct bm_buffer *buf) { return buf->addr; } static inline dma_addr_t bm_buf_addr(const struct bm_buffer *buf) { return (dma_addr_t)buf->addr; } /* Macro, so we compile better if 'v' isn't always 64-bit */ #define bm_buffer_set64(buf, v) \ do { \ struct bm_buffer *__buf931 = (buf); \ __buf931->hi = upper_32_bits(v); \ __buf931->lo = lower_32_bits(v); \ } while (0) /* See 1.5.3.5.4: "Release Command" */ struct bm_rcr_entry { union { struct { u8 __dont_write_directly__verb; u8 bpid; /* used with BM_RCR_VERB_CMD_BPID_SINGLE */ u8 __reserved1[62]; }; struct bm_buffer bufs[8]; }; } __packed; #define BM_RCR_VERB_VBIT 0x80 #define BM_RCR_VERB_CMD_MASK 0x70 /* one of two values; */ #define BM_RCR_VERB_CMD_BPID_SINGLE 0x20 #define BM_RCR_VERB_CMD_BPID_MULTI 0x30 #define BM_RCR_VERB_BUFCOUNT_MASK 0x0f /* values 1..8 */ /* See 1.5.3.1: "Acquire Command" */ /* See 1.5.3.2: "Query Command" */ struct bm_mcc_acquire { u8 bpid; u8 __reserved1[62]; } __packed; struct bm_mcc_query { u8 __reserved2[63]; } __packed; struct bm_mc_command { u8 __dont_write_directly__verb; union { struct bm_mcc_acquire acquire; struct bm_mcc_query query; }; } __packed; #define BM_MCC_VERB_VBIT 0x80 #define BM_MCC_VERB_CMD_MASK 0x70 /* where the verb contains; */ #define BM_MCC_VERB_CMD_ACQUIRE 0x10 #define BM_MCC_VERB_CMD_QUERY 0x40 #define BM_MCC_VERB_ACQUIRE_BUFCOUNT 0x0f /* values 1..8 go here */ /* See 1.5.3.3: "Acquire Response" */ /* See 1.5.3.4: "Query Response" */ struct bm_pool_state { u8 __reserved1[32]; /* "availability state" and "depletion state" */ struct { u8 __reserved1[8]; /* Access using bman_depletion_***() */ struct bman_depletion state; } as, ds; }; struct bm_mc_result { union { struct { u8 verb; u8 __reserved1[63]; }; union { struct { u8 __reserved1; u8 bpid; u8 __reserved2[62]; }; struct bm_buffer bufs[8]; } acquire; struct bm_pool_state query; }; } __packed; #define BM_MCR_VERB_VBIT 0x80 #define BM_MCR_VERB_CMD_MASK BM_MCC_VERB_CMD_MASK #define BM_MCR_VERB_CMD_ACQUIRE BM_MCC_VERB_CMD_ACQUIRE #define BM_MCR_VERB_CMD_QUERY BM_MCC_VERB_CMD_QUERY #define BM_MCR_VERB_CMD_ERR_INVALID 0x60 #define BM_MCR_VERB_CMD_ERR_ECC 0x70 #define BM_MCR_VERB_ACQUIRE_BUFCOUNT BM_MCC_VERB_ACQUIRE_BUFCOUNT /* 0..8 */ /* Determine the "availability state" of pool 'p' from a query result 'r' */ #define BM_MCR_QUERY_AVAILABILITY(r, p) \ bman_depletion_get(&r->query.as.state, p) /* Determine the "depletion state" of pool 'p' from a query result 'r' */ #define BM_MCR_QUERY_DEPLETION(r, p) \ bman_depletion_get(&r->query.ds.state, p) /*******************************************************************/ /* Managed (aka "shared" or "mux/demux") portal, high-level i/face */ /*******************************************************************/ /* Portal and Buffer Pools */ /* ----------------------- */ /* Represents a managed portal */ struct bman_portal; /* This object type represents Bman buffer pools. */ struct bman_pool; struct bman_portal_config { /* This is used for any "core-affine" portals, ie. default portals * associated to the corresponding cpu. -1 implies that there is no core * affinity configured. */ int cpu; /* portal interrupt line */ int irq; /* the unique index of this portal */ u32 index; /* Is this portal shared? (If so, it has coarser locking and demuxes * processing on behalf of other CPUs.) */ int is_shared; /* These are the buffer pool IDs that may be used via this portal. */ struct bman_depletion mask; }; /* This callback type is used when handling pool depletion entry/exit. The * 'cb_ctx' value is the opaque value associated with the pool object in * bman_new_pool(). 'depleted' is non-zero on depletion-entry, and zero on * depletion-exit. */ typedef void (*bman_cb_depletion)(struct bman_portal *bm, struct bman_pool *pool, void *cb_ctx, int depleted); /* This struct specifies parameters for a bman_pool object. */ struct bman_pool_params { /* index of the buffer pool to encapsulate (0-63), ignored if * BMAN_POOL_FLAG_DYNAMIC_BPID is set. */ u32 bpid; /* bit-mask of BMAN_POOL_FLAG_*** options */ u32 flags; /* depletion-entry/exit callback, if BMAN_POOL_FLAG_DEPLETION is set */ bman_cb_depletion cb; /* opaque user value passed as a parameter to 'cb' */ void *cb_ctx; /* depletion-entry/exit thresholds, if BMAN_POOL_FLAG_THRESH is set. NB: * this is only allowed if BMAN_POOL_FLAG_DYNAMIC_BPID is used *and* * when run in the control plane (which controls Bman CCSR). This array * matches the definition of bm_pool_set(). */ u32 thresholds[4]; }; /* Flags to bman_new_pool() */ #define BMAN_POOL_FLAG_NO_RELEASE 0x00000001 /* can't release to pool */ #define BMAN_POOL_FLAG_ONLY_RELEASE 0x00000002 /* can only release to pool */ #define BMAN_POOL_FLAG_DEPLETION 0x00000004 /* track depletion entry/exit */ #define BMAN_POOL_FLAG_DYNAMIC_BPID 0x00000008 /* (de)allocate bpid */ #define BMAN_POOL_FLAG_THRESH 0x00000010 /* set depletion thresholds */ #define BMAN_POOL_FLAG_STOCKPILE 0x00000020 /* stockpile to reduce hw ops */ /* Flags to bman_release() */ #ifdef CONFIG_FSL_DPA_CAN_WAIT #define BMAN_RELEASE_FLAG_WAIT 0x00000001 /* wait if RCR is full */ #define BMAN_RELEASE_FLAG_WAIT_INT 0x00000002 /* if we wait, interruptible? */ #ifdef CONFIG_FSL_DPA_CAN_WAIT_SYNC #define BMAN_RELEASE_FLAG_WAIT_SYNC 0x00000004 /* if wait, until consumed? */ #endif #endif #define BMAN_RELEASE_FLAG_NOW 0x00000008 /* issue immediate release */ /* Flags to bman_acquire() */ #define BMAN_ACQUIRE_FLAG_STOCKPILE 0x00000001 /* no hw op, stockpile only */ /* Portal Management */ /* ----------------- */ /** * bman_get_portal_config - get portal configuration settings * * This returns a read-only view of the current cpu's affine portal settings. */ const struct bman_portal_config *bman_get_portal_config(void); /** * bman_irqsource_get - return the portal work that is interrupt-driven * * Returns a bitmask of BM_PIRQ_**I processing sources that are currently * enabled for interrupt handling on the current cpu's affine portal. These * sources will trigger the portal interrupt and the interrupt handler (or a * tasklet/bottom-half it defers to) will perform the corresponding processing * work. The bman_poll_***() functions will only process sources that are not in * this bitmask. If the current CPU is sharing a portal hosted on another CPU, * this always returns zero. */ u32 bman_irqsource_get(void); /** * bman_irqsource_add - add processing sources to be interrupt-driven * @bits: bitmask of BM_PIRQ_**I processing sources * * Adds processing sources that should be interrupt-driven (rather than * processed via bman_poll_***() functions). Returns zero for success, or * -EINVAL if the current CPU is sharing a portal hosted on another CPU. */ int bman_irqsource_add(u32 bits); /** * bman_irqsource_remove - remove processing sources from being interrupt-driven * @bits: bitmask of BM_PIRQ_**I processing sources * * Removes processing sources from being interrupt-driven, so that they will * instead be processed via bman_poll_***() functions. Returns zero for success, * or -EINVAL if the current CPU is sharing a portal hosted on another CPU. */ int bman_irqsource_remove(u32 bits); /** * bman_affine_cpus - return a mask of cpus that have affine portals */ const cpumask_t *bman_affine_cpus(void); /** * bman_poll_slow - process anything that isn't interrupt-driven. * * This function does any portal processing that isn't interrupt-driven. If the * current CPU is sharing a portal hosted on another CPU, this function will * return -EINVAL, otherwise the return value is a bitmask of BM_PIRQ_* sources * indicating what interrupt sources were actually processed by the call. * * NB, unlike the legacy wrapper bman_poll(), this function will * deterministically check for the presence of portal processing work and do it, * which implies some latency even if there's nothing to do. The bman_poll() * wrapper on the other hand (like the qman_poll() wrapper) attenuates this by * checking for (and doing) portal processing infrequently. Ie. such that * qman_poll() and bman_poll() can be called from core-processing loops. Use * bman_poll_slow() when you yourself are deciding when to incur the overhead of * processing. */ u32 bman_poll_slow(void); /** * bman_poll - process anything that isn't interrupt-driven. * * Dispatcher logic on a cpu can use this to trigger any maintenance of the * affine portal. This function does whatever processing is not triggered by * interrupts. This is a legacy wrapper that can be used in core-processing * loops but mitigates the performance overhead of portal processing by * adaptively bypassing true portal processing most of the time. (Processing is * done once every 10 calls if the previous processing revealed that work needed * to be done, or once very 1000 calls if the previous processing revealed no * work needed doing.) If you wish to control this yourself, call * bman_poll_slow() instead, which always checks for portal processing work. */ void bman_poll(void); /** * bman_rcr_is_empty - Determine if portal's RCR is empty * * For use in situations where a cpu-affine caller needs to determine when all * releases for the local portal have been processed by Bman but can't use the * BMAN_RELEASE_FLAG_WAIT_SYNC flag to do this from the final bman_release(). * The function forces tracking of RCR consumption (which normally doesn't * happen until release processing needs to find space to put new release * commands), and returns zero if the ring still has unprocessed entries, * non-zero if it is empty. */ int bman_rcr_is_empty(void); /** * bman_alloc_bpid_range - Allocate a contiguous range of BPIDs * @result: is set by the API to the base BPID of the allocated range * @count: the number of BPIDs required * @align: required alignment of the allocated range * @partial: non-zero if the API can return fewer than @count BPIDs * * Returns the number of buffer pools allocated, or a negative error code. If * @partial is non zero, the allocation request may return a smaller range of * BPs than requested (though alignment will be as requested). If @partial is * zero, the return value will either be 'count' or negative. */ int bman_alloc_bpid_range(u32 *result, u32 count, u32 align, int partial); static inline int bman_alloc_bpid(u32 *result) { int ret = bman_alloc_bpid_range(result, 1, 0, 0); return (ret > 0) ? 0 : ret; } /** * bman_release_bpid_range - Release the specified range of buffer pool IDs * @bpid: the base BPID of the range to deallocate * @count: the number of BPIDs in the range * * This function can also be used to seed the allocator with ranges of BPIDs * that it can subsequently allocate from. */ void bman_release_bpid_range(u32 bpid, unsigned int count); static inline void bman_release_bpid(u32 bpid) { bman_release_bpid_range(bpid, 1); } int bman_reserve_bpid_range(u32 bpid, unsigned int count); static inline int bman_reserve_bpid(u32 bpid) { return bman_reserve_bpid_range(bpid, 1); } void bman_seed_bpid_range(u32 bpid, unsigned int count); int bman_shutdown_pool(u32 bpid); /* Pool management */ /* --------------- */ /** * bman_new_pool - Allocates a Buffer Pool object * @params: parameters specifying the buffer pool ID and behaviour * * Creates a pool object for the given @params. A portal and the depletion * callback field of @params are only used if the BMAN_POOL_FLAG_DEPLETION flag * is set. NB, the fields from @params are copied into the new pool object, so * the structure provided by the caller can be released or reused after the * function returns. */ struct bman_pool *bman_new_pool(const struct bman_pool_params *params); /** * bman_free_pool - Deallocates a Buffer Pool object * @pool: the pool object to release * */ void bman_free_pool(struct bman_pool *pool); /** * bman_get_params - Returns a pool object's parameters. * @pool: the pool object * * The returned pointer refers to state within the pool object so must not be * modified and can no longer be read once the pool object is destroyed. */ const struct bman_pool_params *bman_get_params(const struct bman_pool *pool); /** * bman_release - Release buffer(s) to the buffer pool * @pool: the buffer pool object to release to * @bufs: an array of buffers to release * @num: the number of buffers in @bufs (1-8) * @flags: bit-mask of BMAN_RELEASE_FLAG_*** options * * Adds the given buffers to RCR entries. If the portal @p was created with the * "COMPACT" flag, then it will be using a compaction algorithm to improve * utilisation of RCR. As such, these buffers may join an existing ring entry * and/or it may not be issued right away so as to allow future releases to join * the same ring entry. Use the BMAN_RELEASE_FLAG_NOW flag to override this * behaviour by committing the RCR entry (or entries) right away. If the RCR * ring is full, the function will return -EBUSY unless BMAN_RELEASE_FLAG_WAIT * is selected, in which case it will sleep waiting for space to become * available in RCR. If the function receives a signal before such time (and * BMAN_RELEASE_FLAG_WAIT_INT is set), the function returns -EINTR. Otherwise, * it returns zero. */ int bman_release(struct bman_pool *pool, const struct bm_buffer *bufs, u8 num, u32 flags); /** * bman_acquire - Acquire buffer(s) from a buffer pool * @pool: the buffer pool object to acquire from * @bufs: array for storing the acquired buffers * @num: the number of buffers desired (@bufs is at least this big) * * Issues an "Acquire" command via the portal's management command interface. * The return value will be the number of buffers obtained from the pool, or a * negative error code if a h/w error or pool starvation was encountered. In * the latter case, the content of @bufs is undefined. */ int bman_acquire(struct bman_pool *pool, struct bm_buffer *bufs, u8 num, u32 flags); /** * bman_flush_stockpile - Flush stockpile buffer(s) to the buffer pool * @pool: the buffer pool object the stockpile belongs * @flags: bit-mask of BMAN_RELEASE_FLAG_*** options * * Adds stockpile buffers to RCR entries until the stockpile is empty. * The return value will be a negative error code if a h/w error occurred. * If BMAN_RELEASE_FLAG_NOW flag is passed and RCR ring is full, * -EAGAIN will be returned. */ int bman_flush_stockpile(struct bman_pool *pool, u32 flags); /** * bman_query_pools - Query all buffer pool states * @state: storage for the queried availability and depletion states */ int bman_query_pools(struct bm_pool_state *state); #ifdef CONFIG_FSL_BMAN_CONFIG /** * bman_query_free_buffers - Query how many free buffers are in buffer pool * @pool: the buffer pool object to query * * Return the number of the free buffers */ u32 bman_query_free_buffers(struct bman_pool *pool); /** * bman_update_pool_thresholds - Change the buffer pool's depletion thresholds * @pool: the buffer pool object to which the thresholds will be set * @thresholds: the new thresholds */ int bman_update_pool_thresholds(struct bman_pool *pool, const u32 *thresholds); #endif /** * The below bman_p_***() variant might be called in a situation that the cpu * which the portal affine to is not online yet. * @bman_portal specifies which portal the API will use. */ int bman_p_irqsource_add(struct bman_portal *p, __maybe_unused u32 bits); #ifdef __cplusplus } #endif #endif /* FSL_BMAN_H */