19dd441e4SAlex Elder // SPDX-License-Identifier: GPL-2.0
29dd441e4SAlex Elder
39dd441e4SAlex Elder /* Copyright (c) 2012-2018, The Linux Foundation. All rights reserved.
4a4388da5SAlex Elder * Copyright (C) 2019-2022 Linaro Ltd.
59dd441e4SAlex Elder */
69dd441e4SAlex Elder
79dd441e4SAlex Elder #include <linux/types.h>
89dd441e4SAlex Elder #include <linux/bits.h>
99dd441e4SAlex Elder #include <linux/bitfield.h>
109dd441e4SAlex Elder #include <linux/refcount.h>
119dd441e4SAlex Elder #include <linux/scatterlist.h>
129dd441e4SAlex Elder #include <linux/dma-direction.h>
139dd441e4SAlex Elder
149dd441e4SAlex Elder #include "gsi.h"
159dd441e4SAlex Elder #include "gsi_private.h"
169dd441e4SAlex Elder #include "gsi_trans.h"
179dd441e4SAlex Elder #include "ipa_gsi.h"
189dd441e4SAlex Elder #include "ipa_data.h"
199dd441e4SAlex Elder #include "ipa_cmd.h"
209dd441e4SAlex Elder
219dd441e4SAlex Elder /**
229dd441e4SAlex Elder * DOC: GSI Transactions
239dd441e4SAlex Elder *
249dd441e4SAlex Elder * A GSI transaction abstracts the behavior of a GSI channel by representing
25ace5dc61SAlex Elder * everything about a related group of IPA operations in a single structure.
26ace5dc61SAlex Elder * (A "operation" in this sense is either a data transfer or an IPA immediate
279dd441e4SAlex Elder * command.) Most details of interaction with the GSI hardware are managed
28ace5dc61SAlex Elder * by the GSI transaction core, allowing users to simply describe operations
299dd441e4SAlex Elder * to be performed. When a transaction has completed a callback function
309dd441e4SAlex Elder * (dependent on the type of endpoint associated with the channel) allows
319dd441e4SAlex Elder * cleanup of resources associated with the transaction.
329dd441e4SAlex Elder *
33ace5dc61SAlex Elder * To perform an operation (or set of them), a user of the GSI transaction
349dd441e4SAlex Elder * interface allocates a transaction, indicating the number of TREs required
35ace5dc61SAlex Elder * (one per operation). If sufficient TREs are available, they are reserved
369dd441e4SAlex Elder * for use in the transaction and the allocation succeeds. This way
37ace5dc61SAlex Elder * exhaustion of the available TREs in a channel ring is detected as early
38ace5dc61SAlex Elder * as possible. Any other resources that might be needed to complete a
39ace5dc61SAlex Elder * transaction are also allocated when the transaction is allocated.
409dd441e4SAlex Elder *
41ace5dc61SAlex Elder * Operations performed as part of a transaction are represented in an array
42ace5dc61SAlex Elder * of Linux scatterlist structures, allocated with the transaction. These
43ace5dc61SAlex Elder * scatterlist structures are initialized by "adding" operations to the
44ace5dc61SAlex Elder * transaction. If a buffer in an operation must be mapped for DMA, this is
45ace5dc61SAlex Elder * done at the time it is added to the transaction. It is possible for a
46ace5dc61SAlex Elder * mapping error to occur when an operation is added. In this case the
47ace5dc61SAlex Elder * transaction should simply be freed; this correctly releases resources
48ace5dc61SAlex Elder * associated with the transaction.
499dd441e4SAlex Elder *
50ace5dc61SAlex Elder * Once all operations have been successfully added to a transaction, the
51ace5dc61SAlex Elder * transaction is committed. Committing transfers ownership of the entire
52ace5dc61SAlex Elder * transaction to the GSI transaction core. The GSI transaction code
53ace5dc61SAlex Elder * formats the content of the scatterlist array into the channel ring
54ace5dc61SAlex Elder * buffer and informs the hardware that new TREs are available to process.
559dd441e4SAlex Elder *
569dd441e4SAlex Elder * The last TRE in each transaction is marked to interrupt the AP when the
579dd441e4SAlex Elder * GSI hardware has completed it. Because transfers described by TREs are
589dd441e4SAlex Elder * performed strictly in order, signaling the completion of just the last
599dd441e4SAlex Elder * TRE in the transaction is sufficient to indicate the full transaction
609dd441e4SAlex Elder * is complete.
619dd441e4SAlex Elder *
629dd441e4SAlex Elder * When a transaction is complete, ipa_gsi_trans_complete() is called by the
639dd441e4SAlex Elder * GSI code into the IPA layer, allowing it to perform any final cleanup
649dd441e4SAlex Elder * required before the transaction is freed.
659dd441e4SAlex Elder */
669dd441e4SAlex Elder
679dd441e4SAlex Elder /* Hardware values representing a transfer element type */
689dd441e4SAlex Elder enum gsi_tre_type {
699dd441e4SAlex Elder GSI_RE_XFER = 0x2,
709dd441e4SAlex Elder GSI_RE_IMMD_CMD = 0x3,
719dd441e4SAlex Elder };
729dd441e4SAlex Elder
739dd441e4SAlex Elder /* An entry in a channel ring */
749dd441e4SAlex Elder struct gsi_tre {
759dd441e4SAlex Elder __le64 addr; /* DMA address */
769dd441e4SAlex Elder __le16 len_opcode; /* length in bytes or enum IPA_CMD_* */
779dd441e4SAlex Elder __le16 reserved;
789dd441e4SAlex Elder __le32 flags; /* TRE_FLAGS_* */
799dd441e4SAlex Elder };
809dd441e4SAlex Elder
819dd441e4SAlex Elder /* gsi_tre->flags mask values (in CPU byte order) */
829dd441e4SAlex Elder #define TRE_FLAGS_CHAIN_FMASK GENMASK(0, 0)
839dd441e4SAlex Elder #define TRE_FLAGS_IEOT_FMASK GENMASK(9, 9)
849dd441e4SAlex Elder #define TRE_FLAGS_BEI_FMASK GENMASK(10, 10)
859dd441e4SAlex Elder #define TRE_FLAGS_TYPE_FMASK GENMASK(23, 16)
869dd441e4SAlex Elder
gsi_trans_pool_init(struct gsi_trans_pool * pool,size_t size,u32 count,u32 max_alloc)879dd441e4SAlex Elder int gsi_trans_pool_init(struct gsi_trans_pool *pool, size_t size, u32 count,
889dd441e4SAlex Elder u32 max_alloc)
899dd441e4SAlex Elder {
9036875a06SKees Cook size_t alloc_size;
919dd441e4SAlex Elder void *virt;
929dd441e4SAlex Elder
937ad3bd52SAlex Elder if (!size)
949dd441e4SAlex Elder return -EINVAL;
959dd441e4SAlex Elder if (count < max_alloc)
969dd441e4SAlex Elder return -EINVAL;
979dd441e4SAlex Elder if (!max_alloc)
989dd441e4SAlex Elder return -EINVAL;
999dd441e4SAlex Elder
1009dd441e4SAlex Elder /* By allocating a few extra entries in our pool (one less
1019dd441e4SAlex Elder * than the maximum number that will be requested in a
1029dd441e4SAlex Elder * single allocation), we can always satisfy requests without
1039dd441e4SAlex Elder * ever worrying about straddling the end of the pool array.
1049dd441e4SAlex Elder * If there aren't enough entries starting at the free index,
1059dd441e4SAlex Elder * we just allocate free entries from the beginning of the pool.
1069dd441e4SAlex Elder */
10736875a06SKees Cook alloc_size = size_mul(count + max_alloc - 1, size);
10836875a06SKees Cook alloc_size = kmalloc_size_roundup(alloc_size);
10936875a06SKees Cook virt = kzalloc(alloc_size, GFP_KERNEL);
1109dd441e4SAlex Elder if (!virt)
1119dd441e4SAlex Elder return -ENOMEM;
1129dd441e4SAlex Elder
1139dd441e4SAlex Elder pool->base = virt;
1149dd441e4SAlex Elder /* If the allocator gave us any extra memory, use it */
11536875a06SKees Cook pool->count = alloc_size / size;
1169dd441e4SAlex Elder pool->free = 0;
1179dd441e4SAlex Elder pool->max_alloc = max_alloc;
1189dd441e4SAlex Elder pool->size = size;
1199dd441e4SAlex Elder pool->addr = 0; /* Only used for DMA pools */
1209dd441e4SAlex Elder
1219dd441e4SAlex Elder return 0;
1229dd441e4SAlex Elder }
1239dd441e4SAlex Elder
gsi_trans_pool_exit(struct gsi_trans_pool * pool)1249dd441e4SAlex Elder void gsi_trans_pool_exit(struct gsi_trans_pool *pool)
1259dd441e4SAlex Elder {
1269dd441e4SAlex Elder kfree(pool->base);
1279dd441e4SAlex Elder memset(pool, 0, sizeof(*pool));
1289dd441e4SAlex Elder }
1299dd441e4SAlex Elder
130ace5dc61SAlex Elder /* Home-grown DMA pool. This way we can preallocate the pool, and guarantee
131ace5dc61SAlex Elder * allocations will succeed. The immediate commands in a transaction can
132ace5dc61SAlex Elder * require up to max_alloc elements from the pool. But we only allow
133ace5dc61SAlex Elder * allocation of a single element from a DMA pool at a time.
1349dd441e4SAlex Elder */
gsi_trans_pool_init_dma(struct device * dev,struct gsi_trans_pool * pool,size_t size,u32 count,u32 max_alloc)1359dd441e4SAlex Elder int gsi_trans_pool_init_dma(struct device *dev, struct gsi_trans_pool *pool,
1369dd441e4SAlex Elder size_t size, u32 count, u32 max_alloc)
1379dd441e4SAlex Elder {
1389dd441e4SAlex Elder size_t total_size;
1399dd441e4SAlex Elder dma_addr_t addr;
1409dd441e4SAlex Elder void *virt;
1419dd441e4SAlex Elder
1427ad3bd52SAlex Elder if (!size)
1439dd441e4SAlex Elder return -EINVAL;
1449dd441e4SAlex Elder if (count < max_alloc)
1459dd441e4SAlex Elder return -EINVAL;
1469dd441e4SAlex Elder if (!max_alloc)
1479dd441e4SAlex Elder return -EINVAL;
1489dd441e4SAlex Elder
1499dd441e4SAlex Elder /* Don't let allocations cross a power-of-two boundary */
1509dd441e4SAlex Elder size = __roundup_pow_of_two(size);
1519dd441e4SAlex Elder total_size = (count + max_alloc - 1) * size;
1529dd441e4SAlex Elder
15319aaf72cSAlex Elder /* The allocator will give us a power-of-2 number of pages
15419aaf72cSAlex Elder * sufficient to satisfy our request. Round up our requested
15519aaf72cSAlex Elder * size to avoid any unused space in the allocation. This way
15619aaf72cSAlex Elder * gsi_trans_pool_exit_dma() can assume the total allocated
1571130b252SAlex Elder * size is exactly (count * size).
1589dd441e4SAlex Elder */
159*6c75dc94SAlex Elder total_size = PAGE_SIZE << get_order(total_size);
1609dd441e4SAlex Elder
1619dd441e4SAlex Elder virt = dma_alloc_coherent(dev, total_size, &addr, GFP_KERNEL);
1629dd441e4SAlex Elder if (!virt)
1639dd441e4SAlex Elder return -ENOMEM;
1649dd441e4SAlex Elder
1659dd441e4SAlex Elder pool->base = virt;
1669dd441e4SAlex Elder pool->count = total_size / size;
1679dd441e4SAlex Elder pool->free = 0;
1689dd441e4SAlex Elder pool->size = size;
1699dd441e4SAlex Elder pool->max_alloc = max_alloc;
1709dd441e4SAlex Elder pool->addr = addr;
1719dd441e4SAlex Elder
1729dd441e4SAlex Elder return 0;
1739dd441e4SAlex Elder }
1749dd441e4SAlex Elder
gsi_trans_pool_exit_dma(struct device * dev,struct gsi_trans_pool * pool)1759dd441e4SAlex Elder void gsi_trans_pool_exit_dma(struct device *dev, struct gsi_trans_pool *pool)
1769dd441e4SAlex Elder {
1771130b252SAlex Elder size_t total_size = pool->count * pool->size;
1781130b252SAlex Elder
1791130b252SAlex Elder dma_free_coherent(dev, total_size, pool->base, pool->addr);
1809dd441e4SAlex Elder memset(pool, 0, sizeof(*pool));
1819dd441e4SAlex Elder }
1829dd441e4SAlex Elder
1839dd441e4SAlex Elder /* Return the byte offset of the next free entry in the pool */
gsi_trans_pool_alloc_common(struct gsi_trans_pool * pool,u32 count)1849dd441e4SAlex Elder static u32 gsi_trans_pool_alloc_common(struct gsi_trans_pool *pool, u32 count)
1859dd441e4SAlex Elder {
1869dd441e4SAlex Elder u32 offset;
1879dd441e4SAlex Elder
1885bc55884SAlex Elder WARN_ON(!count);
1895bc55884SAlex Elder WARN_ON(count > pool->max_alloc);
1909dd441e4SAlex Elder
1919dd441e4SAlex Elder /* Allocate from beginning if wrap would occur */
1929dd441e4SAlex Elder if (count > pool->count - pool->free)
1939dd441e4SAlex Elder pool->free = 0;
1949dd441e4SAlex Elder
1959dd441e4SAlex Elder offset = pool->free * pool->size;
1969dd441e4SAlex Elder pool->free += count;
1979dd441e4SAlex Elder memset(pool->base + offset, 0, count * pool->size);
1989dd441e4SAlex Elder
1999dd441e4SAlex Elder return offset;
2009dd441e4SAlex Elder }
2019dd441e4SAlex Elder
2029dd441e4SAlex Elder /* Allocate a contiguous block of zeroed entries from a pool */
gsi_trans_pool_alloc(struct gsi_trans_pool * pool,u32 count)2039dd441e4SAlex Elder void *gsi_trans_pool_alloc(struct gsi_trans_pool *pool, u32 count)
2049dd441e4SAlex Elder {
2059dd441e4SAlex Elder return pool->base + gsi_trans_pool_alloc_common(pool, count);
2069dd441e4SAlex Elder }
2079dd441e4SAlex Elder
2089dd441e4SAlex Elder /* Allocate a single zeroed entry from a DMA pool */
gsi_trans_pool_alloc_dma(struct gsi_trans_pool * pool,dma_addr_t * addr)2099dd441e4SAlex Elder void *gsi_trans_pool_alloc_dma(struct gsi_trans_pool *pool, dma_addr_t *addr)
2109dd441e4SAlex Elder {
2119dd441e4SAlex Elder u32 offset = gsi_trans_pool_alloc_common(pool, 1);
2129dd441e4SAlex Elder
2139dd441e4SAlex Elder *addr = pool->addr + offset;
2149dd441e4SAlex Elder
2159dd441e4SAlex Elder return pool->base + offset;
2169dd441e4SAlex Elder }
2179dd441e4SAlex Elder
2188eec7831SAlex Elder /* Map a TRE ring entry index to the transaction it is associated with */
gsi_trans_map(struct gsi_trans * trans,u32 index)2198eec7831SAlex Elder static void gsi_trans_map(struct gsi_trans *trans, u32 index)
2209dd441e4SAlex Elder {
2218eec7831SAlex Elder struct gsi_channel *channel = &trans->gsi->channel[trans->channel_id];
2228eec7831SAlex Elder
2238eec7831SAlex Elder /* The completion event will indicate the last TRE used */
2248eec7831SAlex Elder index += trans->used_count - 1;
2258eec7831SAlex Elder
2269dd441e4SAlex Elder /* Note: index *must* be used modulo the ring count here */
2279dd441e4SAlex Elder channel->trans_info.map[index % channel->tre_ring.count] = trans;
2289dd441e4SAlex Elder }
2299dd441e4SAlex Elder
2309dd441e4SAlex Elder /* Return the transaction mapped to a given ring entry */
2319dd441e4SAlex Elder struct gsi_trans *
gsi_channel_trans_mapped(struct gsi_channel * channel,u32 index)2329dd441e4SAlex Elder gsi_channel_trans_mapped(struct gsi_channel *channel, u32 index)
2339dd441e4SAlex Elder {
2349dd441e4SAlex Elder /* Note: index *must* be used modulo the ring count here */
2359dd441e4SAlex Elder return channel->trans_info.map[index % channel->tre_ring.count];
2369dd441e4SAlex Elder }
2379dd441e4SAlex Elder
2389dd441e4SAlex Elder /* Return the oldest completed transaction for a channel (or null) */
gsi_channel_trans_complete(struct gsi_channel * channel)2399dd441e4SAlex Elder struct gsi_trans *gsi_channel_trans_complete(struct gsi_channel *channel)
2409dd441e4SAlex Elder {
2418672bab7SAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info;
2428672bab7SAlex Elder u16 trans_id = trans_info->completed_id;
2438672bab7SAlex Elder
244019e37eaSAlex Elder if (trans_id == trans_info->pending_id) {
245019e37eaSAlex Elder gsi_channel_update(channel);
2460c126ec3SAlex Elder if (trans_id == trans_info->pending_id)
247019e37eaSAlex Elder return NULL;
248019e37eaSAlex Elder }
2498672bab7SAlex Elder
2500c126ec3SAlex Elder return &trans_info->trans[trans_id %= channel->tre_count];
2519dd441e4SAlex Elder }
2529dd441e4SAlex Elder
25311902b41SAlex Elder /* Move a transaction from allocated to committed state */
gsi_trans_move_committed(struct gsi_trans * trans)254b63f507cSAlex Elder static void gsi_trans_move_committed(struct gsi_trans *trans)
2559dd441e4SAlex Elder {
2569dd441e4SAlex Elder struct gsi_channel *channel = &trans->gsi->channel[trans->channel_id];
2579dd441e4SAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info;
2589dd441e4SAlex Elder
25941e2a2c0SAlex Elder /* This allocated transaction is now committed */
26041e2a2c0SAlex Elder trans_info->allocated_id++;
261b63f507cSAlex Elder }
262b63f507cSAlex Elder
263d338ae28SAlex Elder /* Move committed transactions to pending state */
gsi_trans_move_pending(struct gsi_trans * trans)264b63f507cSAlex Elder static void gsi_trans_move_pending(struct gsi_trans *trans)
265b63f507cSAlex Elder {
266b63f507cSAlex Elder struct gsi_channel *channel = &trans->gsi->channel[trans->channel_id];
267b63f507cSAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info;
268fc95d958SAlex Elder u16 trans_index = trans - &trans_info->trans[0];
269fc95d958SAlex Elder u16 delta;
270b63f507cSAlex Elder
271fc95d958SAlex Elder /* These committed transactions are now pending */
272fc95d958SAlex Elder delta = trans_index - trans_info->committed_id + 1;
273fc95d958SAlex Elder trans_info->committed_id += delta % channel->tre_count;
2749dd441e4SAlex Elder }
2759dd441e4SAlex Elder
276d338ae28SAlex Elder /* Move pending transactions to completed state */
gsi_trans_move_complete(struct gsi_trans * trans)2779dd441e4SAlex Elder void gsi_trans_move_complete(struct gsi_trans *trans)
2789dd441e4SAlex Elder {
2799dd441e4SAlex Elder struct gsi_channel *channel = &trans->gsi->channel[trans->channel_id];
2809dd441e4SAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info;
281eeff7c14SAlex Elder u16 trans_index = trans - trans_info->trans;
282eeff7c14SAlex Elder u16 delta;
2839dd441e4SAlex Elder
284eeff7c14SAlex Elder /* These pending transactions are now completed */
285eeff7c14SAlex Elder delta = trans_index - trans_info->pending_id + 1;
286eeff7c14SAlex Elder delta %= channel->tre_count;
287eeff7c14SAlex Elder trans_info->pending_id += delta;
2889dd441e4SAlex Elder }
2899dd441e4SAlex Elder
290d338ae28SAlex Elder /* Move a transaction from completed to polled state */
gsi_trans_move_polled(struct gsi_trans * trans)2919dd441e4SAlex Elder void gsi_trans_move_polled(struct gsi_trans *trans)
2929dd441e4SAlex Elder {
2939dd441e4SAlex Elder struct gsi_channel *channel = &trans->gsi->channel[trans->channel_id];
2949dd441e4SAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info;
2959dd441e4SAlex Elder
296949cd0b5SAlex Elder /* This completed transaction is now polled */
297949cd0b5SAlex Elder trans_info->completed_id++;
2989dd441e4SAlex Elder }
2999dd441e4SAlex Elder
3009dd441e4SAlex Elder /* Reserve some number of TREs on a channel. Returns true if successful */
3019dd441e4SAlex Elder static bool
gsi_trans_tre_reserve(struct gsi_trans_info * trans_info,u32 tre_count)3029dd441e4SAlex Elder gsi_trans_tre_reserve(struct gsi_trans_info *trans_info, u32 tre_count)
3039dd441e4SAlex Elder {
3049dd441e4SAlex Elder int avail = atomic_read(&trans_info->tre_avail);
3059dd441e4SAlex Elder int new;
3069dd441e4SAlex Elder
3079dd441e4SAlex Elder do {
3089dd441e4SAlex Elder new = avail - (int)tre_count;
3099dd441e4SAlex Elder if (unlikely(new < 0))
3109dd441e4SAlex Elder return false;
3119dd441e4SAlex Elder } while (!atomic_try_cmpxchg(&trans_info->tre_avail, &avail, new));
3129dd441e4SAlex Elder
3139dd441e4SAlex Elder return true;
3149dd441e4SAlex Elder }
3159dd441e4SAlex Elder
3169dd441e4SAlex Elder /* Release previously-reserved TRE entries to a channel */
3179dd441e4SAlex Elder static void
gsi_trans_tre_release(struct gsi_trans_info * trans_info,u32 tre_count)3189dd441e4SAlex Elder gsi_trans_tre_release(struct gsi_trans_info *trans_info, u32 tre_count)
3199dd441e4SAlex Elder {
3209dd441e4SAlex Elder atomic_add(tre_count, &trans_info->tre_avail);
3219dd441e4SAlex Elder }
3229dd441e4SAlex Elder
3235fc7f9baSAlex Elder /* Return true if no transactions are allocated, false otherwise */
gsi_channel_trans_idle(struct gsi * gsi,u32 channel_id)3245fc7f9baSAlex Elder bool gsi_channel_trans_idle(struct gsi *gsi, u32 channel_id)
3255fc7f9baSAlex Elder {
3265fc7f9baSAlex Elder u32 tre_max = gsi_channel_tre_max(gsi, channel_id);
3275fc7f9baSAlex Elder struct gsi_trans_info *trans_info;
3285fc7f9baSAlex Elder
3295fc7f9baSAlex Elder trans_info = &gsi->channel[channel_id].trans_info;
3305fc7f9baSAlex Elder
3315fc7f9baSAlex Elder return atomic_read(&trans_info->tre_avail) == tre_max;
3325fc7f9baSAlex Elder }
3335fc7f9baSAlex Elder
3349dd441e4SAlex Elder /* Allocate a GSI transaction on a channel */
gsi_channel_trans_alloc(struct gsi * gsi,u32 channel_id,u32 tre_count,enum dma_data_direction direction)3359dd441e4SAlex Elder struct gsi_trans *gsi_channel_trans_alloc(struct gsi *gsi, u32 channel_id,
3369dd441e4SAlex Elder u32 tre_count,
3379dd441e4SAlex Elder enum dma_data_direction direction)
3389dd441e4SAlex Elder {
3399dd441e4SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id];
3409dd441e4SAlex Elder struct gsi_trans_info *trans_info;
3419dd441e4SAlex Elder struct gsi_trans *trans;
34212382d11SAlex Elder u16 trans_index;
3439dd441e4SAlex Elder
34488e03057SAlex Elder if (WARN_ON(tre_count > channel->trans_tre_max))
3455bc55884SAlex Elder return NULL;
3469dd441e4SAlex Elder
3479dd441e4SAlex Elder trans_info = &channel->trans_info;
3489dd441e4SAlex Elder
34912382d11SAlex Elder /* If we can't reserve the TREs for the transaction, we're done */
3509dd441e4SAlex Elder if (!gsi_trans_tre_reserve(trans_info, tre_count))
3519dd441e4SAlex Elder return NULL;
3529dd441e4SAlex Elder
35312382d11SAlex Elder trans_index = trans_info->free_id % channel->tre_count;
35412382d11SAlex Elder trans = &trans_info->trans[trans_index];
35512382d11SAlex Elder memset(trans, 0, sizeof(*trans));
35612382d11SAlex Elder
35712382d11SAlex Elder /* Initialize non-zero fields in the transaction */
3589dd441e4SAlex Elder trans->gsi = gsi;
3599dd441e4SAlex Elder trans->channel_id = channel_id;
3603eeabea6SAlex Elder trans->rsvd_count = tre_count;
3619dd441e4SAlex Elder init_completion(&trans->completion);
3629dd441e4SAlex Elder
363616c4a83SAlex Elder /* Allocate the scatterlist */
3649dd441e4SAlex Elder trans->sgl = gsi_trans_pool_alloc(&trans_info->sg_pool, tre_count);
3659dd441e4SAlex Elder sg_init_marker(trans->sgl, tre_count);
3669dd441e4SAlex Elder
3679dd441e4SAlex Elder trans->direction = direction;
36812382d11SAlex Elder refcount_set(&trans->refcount, 1);
36912382d11SAlex Elder
370d338ae28SAlex Elder /* This free transaction is now allocated */
37112382d11SAlex Elder trans_info->free_id++;
3729dd441e4SAlex Elder
3739dd441e4SAlex Elder return trans;
3749dd441e4SAlex Elder }
3759dd441e4SAlex Elder
376064c9c32SAlex Elder /* Free a previously-allocated transaction */
gsi_trans_free(struct gsi_trans * trans)3779dd441e4SAlex Elder void gsi_trans_free(struct gsi_trans *trans)
3789dd441e4SAlex Elder {
3799dd441e4SAlex Elder struct gsi_trans_info *trans_info;
3809dd441e4SAlex Elder
381d338ae28SAlex Elder if (!refcount_dec_and_test(&trans->refcount))
382064c9c32SAlex Elder return;
383064c9c32SAlex Elder
384eeff7c14SAlex Elder /* Unused transactions are allocated but never committed, pending,
385949cd0b5SAlex Elder * completed, or polled.
386eeff7c14SAlex Elder */
387d338ae28SAlex Elder trans_info = &trans->gsi->channel[trans->channel_id].trans_info;
388fc95d958SAlex Elder if (!trans->used_count) {
38941e2a2c0SAlex Elder trans_info->allocated_id++;
390fc95d958SAlex Elder trans_info->committed_id++;
391eeff7c14SAlex Elder trans_info->pending_id++;
392949cd0b5SAlex Elder trans_info->completed_id++;
393fc95d958SAlex Elder } else {
3949dd441e4SAlex Elder ipa_gsi_trans_release(trans);
395fc95d958SAlex Elder }
3969dd441e4SAlex Elder
397fd3bd039SAlex Elder /* This transaction is now free */
398fd3bd039SAlex Elder trans_info->polled_id++;
399fd3bd039SAlex Elder
4009dd441e4SAlex Elder /* Releasing the reserved TREs implicitly frees the sgl[] and
4019dd441e4SAlex Elder * (if present) info[] arrays, plus the transaction itself.
4029dd441e4SAlex Elder */
4033eeabea6SAlex Elder gsi_trans_tre_release(trans_info, trans->rsvd_count);
4049dd441e4SAlex Elder }
4059dd441e4SAlex Elder
4069dd441e4SAlex Elder /* Add an immediate command to a transaction */
gsi_trans_cmd_add(struct gsi_trans * trans,void * buf,u32 size,dma_addr_t addr,enum ipa_cmd_opcode opcode)4079dd441e4SAlex Elder void gsi_trans_cmd_add(struct gsi_trans *trans, void *buf, u32 size,
4084de284b7SAlex Elder dma_addr_t addr, enum ipa_cmd_opcode opcode)
4099dd441e4SAlex Elder {
4103eeabea6SAlex Elder u32 which = trans->used_count++;
4119dd441e4SAlex Elder struct scatterlist *sg;
4129dd441e4SAlex Elder
4133eeabea6SAlex Elder WARN_ON(which >= trans->rsvd_count);
4149dd441e4SAlex Elder
415df833050SAlex Elder /* Commands are quite different from data transfer requests.
416df833050SAlex Elder * Their payloads come from a pool whose memory is allocated
417df833050SAlex Elder * using dma_alloc_coherent(). We therefore do *not* map them
418df833050SAlex Elder * for DMA (unlike what we do for pages and skbs).
419df833050SAlex Elder *
420df833050SAlex Elder * When a transaction completes, the SGL is normally unmapped.
421df833050SAlex Elder * A command transaction has direction DMA_NONE, which tells
422df833050SAlex Elder * gsi_trans_complete() to skip the unmapping step.
423df833050SAlex Elder *
424df833050SAlex Elder * The only things we use directly in a command scatter/gather
425df833050SAlex Elder * entry are the DMA address and length. We still need the SG
426df833050SAlex Elder * table flags to be maintained though, so assign a NULL page
427df833050SAlex Elder * pointer for that purpose.
4289dd441e4SAlex Elder */
4299dd441e4SAlex Elder sg = &trans->sgl[which];
430df833050SAlex Elder sg_assign_page(sg, NULL);
4319dd441e4SAlex Elder sg_dma_address(sg) = addr;
432df833050SAlex Elder sg_dma_len(sg) = size;
4339dd441e4SAlex Elder
4348797972aSAlex Elder trans->cmd_opcode[which] = opcode;
4359dd441e4SAlex Elder }
4369dd441e4SAlex Elder
4379dd441e4SAlex Elder /* Add a page transfer to a transaction. It will fill the only TRE. */
gsi_trans_page_add(struct gsi_trans * trans,struct page * page,u32 size,u32 offset)4389dd441e4SAlex Elder int gsi_trans_page_add(struct gsi_trans *trans, struct page *page, u32 size,
4399dd441e4SAlex Elder u32 offset)
4409dd441e4SAlex Elder {
4419dd441e4SAlex Elder struct scatterlist *sg = &trans->sgl[0];
4429dd441e4SAlex Elder int ret;
4439dd441e4SAlex Elder
4443eeabea6SAlex Elder if (WARN_ON(trans->rsvd_count != 1))
4455bc55884SAlex Elder return -EINVAL;
4463eeabea6SAlex Elder if (WARN_ON(trans->used_count))
4475bc55884SAlex Elder return -EINVAL;
4489dd441e4SAlex Elder
4499dd441e4SAlex Elder sg_set_page(sg, page, size, offset);
4509dd441e4SAlex Elder ret = dma_map_sg(trans->gsi->dev, sg, 1, trans->direction);
4519dd441e4SAlex Elder if (!ret)
4529dd441e4SAlex Elder return -ENOMEM;
4539dd441e4SAlex Elder
4543eeabea6SAlex Elder trans->used_count++; /* Transaction now owns the (DMA mapped) page */
4559dd441e4SAlex Elder
4569dd441e4SAlex Elder return 0;
4579dd441e4SAlex Elder }
4589dd441e4SAlex Elder
4599dd441e4SAlex Elder /* Add an SKB transfer to a transaction. No other TREs will be used. */
gsi_trans_skb_add(struct gsi_trans * trans,struct sk_buff * skb)4609dd441e4SAlex Elder int gsi_trans_skb_add(struct gsi_trans *trans, struct sk_buff *skb)
4619dd441e4SAlex Elder {
4629dd441e4SAlex Elder struct scatterlist *sg = &trans->sgl[0];
4633eeabea6SAlex Elder u32 used_count;
4649dd441e4SAlex Elder int ret;
4659dd441e4SAlex Elder
4663eeabea6SAlex Elder if (WARN_ON(trans->rsvd_count != 1))
4675bc55884SAlex Elder return -EINVAL;
4683eeabea6SAlex Elder if (WARN_ON(trans->used_count))
4695bc55884SAlex Elder return -EINVAL;
4709dd441e4SAlex Elder
4719dd441e4SAlex Elder /* skb->len will not be 0 (checked early) */
4729dd441e4SAlex Elder ret = skb_to_sgvec(skb, sg, 0, skb->len);
4739dd441e4SAlex Elder if (ret < 0)
4749dd441e4SAlex Elder return ret;
4753eeabea6SAlex Elder used_count = ret;
4769dd441e4SAlex Elder
4773eeabea6SAlex Elder ret = dma_map_sg(trans->gsi->dev, sg, used_count, trans->direction);
4789dd441e4SAlex Elder if (!ret)
4799dd441e4SAlex Elder return -ENOMEM;
4809dd441e4SAlex Elder
4813eeabea6SAlex Elder /* Transaction now owns the (DMA mapped) skb */
4823eeabea6SAlex Elder trans->used_count += used_count;
4839dd441e4SAlex Elder
4849dd441e4SAlex Elder return 0;
4859dd441e4SAlex Elder }
4869dd441e4SAlex Elder
4879dd441e4SAlex Elder /* Compute the length/opcode value to use for a TRE */
gsi_tre_len_opcode(enum ipa_cmd_opcode opcode,u32 len)4889dd441e4SAlex Elder static __le16 gsi_tre_len_opcode(enum ipa_cmd_opcode opcode, u32 len)
4899dd441e4SAlex Elder {
4909dd441e4SAlex Elder return opcode == IPA_CMD_NONE ? cpu_to_le16((u16)len)
4919dd441e4SAlex Elder : cpu_to_le16((u16)opcode);
4929dd441e4SAlex Elder }
4939dd441e4SAlex Elder
4949dd441e4SAlex Elder /* Compute the flags value to use for a given TRE */
gsi_tre_flags(bool last_tre,bool bei,enum ipa_cmd_opcode opcode)4959dd441e4SAlex Elder static __le32 gsi_tre_flags(bool last_tre, bool bei, enum ipa_cmd_opcode opcode)
4969dd441e4SAlex Elder {
4979dd441e4SAlex Elder enum gsi_tre_type tre_type;
4989dd441e4SAlex Elder u32 tre_flags;
4999dd441e4SAlex Elder
5009dd441e4SAlex Elder tre_type = opcode == IPA_CMD_NONE ? GSI_RE_XFER : GSI_RE_IMMD_CMD;
5019dd441e4SAlex Elder tre_flags = u32_encode_bits(tre_type, TRE_FLAGS_TYPE_FMASK);
5029dd441e4SAlex Elder
5039dd441e4SAlex Elder /* Last TRE contains interrupt flags */
5049dd441e4SAlex Elder if (last_tre) {
5059dd441e4SAlex Elder /* All transactions end in a transfer completion interrupt */
5069dd441e4SAlex Elder tre_flags |= TRE_FLAGS_IEOT_FMASK;
5079dd441e4SAlex Elder /* Don't interrupt when outbound commands are acknowledged */
5089dd441e4SAlex Elder if (bei)
5099dd441e4SAlex Elder tre_flags |= TRE_FLAGS_BEI_FMASK;
5109dd441e4SAlex Elder } else { /* All others indicate there's more to come */
5119dd441e4SAlex Elder tre_flags |= TRE_FLAGS_CHAIN_FMASK;
5129dd441e4SAlex Elder }
5139dd441e4SAlex Elder
5149dd441e4SAlex Elder return cpu_to_le32(tre_flags);
5159dd441e4SAlex Elder }
5169dd441e4SAlex Elder
gsi_trans_tre_fill(struct gsi_tre * dest_tre,dma_addr_t addr,u32 len,bool last_tre,bool bei,enum ipa_cmd_opcode opcode)5179dd441e4SAlex Elder static void gsi_trans_tre_fill(struct gsi_tre *dest_tre, dma_addr_t addr,
5189dd441e4SAlex Elder u32 len, bool last_tre, bool bei,
5199dd441e4SAlex Elder enum ipa_cmd_opcode opcode)
5209dd441e4SAlex Elder {
5219dd441e4SAlex Elder struct gsi_tre tre;
5229dd441e4SAlex Elder
5239dd441e4SAlex Elder tre.addr = cpu_to_le64(addr);
5249dd441e4SAlex Elder tre.len_opcode = gsi_tre_len_opcode(opcode, len);
5259dd441e4SAlex Elder tre.reserved = 0;
5269dd441e4SAlex Elder tre.flags = gsi_tre_flags(last_tre, bei, opcode);
5279dd441e4SAlex Elder
5289dd441e4SAlex Elder /* ARM64 can write 16 bytes as a unit with a single instruction.
5299dd441e4SAlex Elder * Doing the assignment this way is an attempt to make that happen.
5309dd441e4SAlex Elder */
5319dd441e4SAlex Elder *dest_tre = tre;
5329dd441e4SAlex Elder }
5339dd441e4SAlex Elder
5349dd441e4SAlex Elder /**
5359dd441e4SAlex Elder * __gsi_trans_commit() - Common GSI transaction commit code
5369dd441e4SAlex Elder * @trans: Transaction to commit
5379dd441e4SAlex Elder * @ring_db: Whether to tell the hardware about these queued transfers
5389dd441e4SAlex Elder *
5399dd441e4SAlex Elder * Formats channel ring TRE entries based on the content of the scatterlist.
5409dd441e4SAlex Elder * Maps a transaction pointer to the last ring entry used for the transaction,
541ace5dc61SAlex Elder * so it can be recovered when it completes. Moves the transaction to
542ace5dc61SAlex Elder * pending state. Finally, updates the channel ring pointer and optionally
5439dd441e4SAlex Elder * rings the doorbell.
5449dd441e4SAlex Elder */
__gsi_trans_commit(struct gsi_trans * trans,bool ring_db)5459dd441e4SAlex Elder static void __gsi_trans_commit(struct gsi_trans *trans, bool ring_db)
5469dd441e4SAlex Elder {
5479dd441e4SAlex Elder struct gsi_channel *channel = &trans->gsi->channel[trans->channel_id];
5482295947bSAlex Elder struct gsi_ring *tre_ring = &channel->tre_ring;
5499dd441e4SAlex Elder enum ipa_cmd_opcode opcode = IPA_CMD_NONE;
5509dd441e4SAlex Elder bool bei = channel->toward_ipa;
5519dd441e4SAlex Elder struct gsi_tre *dest_tre;
5529dd441e4SAlex Elder struct scatterlist *sg;
5539dd441e4SAlex Elder u32 byte_count = 0;
5548797972aSAlex Elder u8 *cmd_opcode;
5559dd441e4SAlex Elder u32 avail;
5569dd441e4SAlex Elder u32 i;
5579dd441e4SAlex Elder
5583eeabea6SAlex Elder WARN_ON(!trans->used_count);
5599dd441e4SAlex Elder
5609dd441e4SAlex Elder /* Consume the entries. If we cross the end of the ring while
5619dd441e4SAlex Elder * filling them we'll switch to the beginning to finish.
5629dd441e4SAlex Elder * If there is no info array we're doing a simple data
5639dd441e4SAlex Elder * transfer request, whose opcode is IPA_CMD_NONE.
5649dd441e4SAlex Elder */
5658797972aSAlex Elder cmd_opcode = channel->command ? &trans->cmd_opcode[0] : NULL;
5662295947bSAlex Elder avail = tre_ring->count - tre_ring->index % tre_ring->count;
5672295947bSAlex Elder dest_tre = gsi_ring_virt(tre_ring, tre_ring->index);
5683eeabea6SAlex Elder for_each_sg(trans->sgl, sg, trans->used_count, i) {
5693eeabea6SAlex Elder bool last_tre = i == trans->used_count - 1;
5709dd441e4SAlex Elder dma_addr_t addr = sg_dma_address(sg);
5719dd441e4SAlex Elder u32 len = sg_dma_len(sg);
5729dd441e4SAlex Elder
5739dd441e4SAlex Elder byte_count += len;
5749dd441e4SAlex Elder if (!avail--)
5752295947bSAlex Elder dest_tre = gsi_ring_virt(tre_ring, 0);
5768797972aSAlex Elder if (cmd_opcode)
5778797972aSAlex Elder opcode = *cmd_opcode++;
5789dd441e4SAlex Elder
5799dd441e4SAlex Elder gsi_trans_tre_fill(dest_tre, addr, len, last_tre, bei, opcode);
5809dd441e4SAlex Elder dest_tre++;
5819dd441e4SAlex Elder }
5828eec7831SAlex Elder /* Associate the TRE with the transaction */
5838eec7831SAlex Elder gsi_trans_map(trans, tre_ring->index);
5848eec7831SAlex Elder
5853eeabea6SAlex Elder tre_ring->index += trans->used_count;
5869dd441e4SAlex Elder
5879dd441e4SAlex Elder trans->len = byte_count;
5884e0f28e9SAlex Elder if (channel->toward_ipa)
5894e0f28e9SAlex Elder gsi_trans_tx_committed(trans);
5909dd441e4SAlex Elder
591b63f507cSAlex Elder gsi_trans_move_committed(trans);
5929dd441e4SAlex Elder
5939dd441e4SAlex Elder /* Ring doorbell if requested, or if all TREs are allocated */
5949dd441e4SAlex Elder if (ring_db || !atomic_read(&channel->trans_info.tre_avail)) {
5959dd441e4SAlex Elder /* Report what we're handing off to hardware for TX channels */
5969dd441e4SAlex Elder if (channel->toward_ipa)
597bcec9ecbSAlex Elder gsi_trans_tx_queued(trans);
598b63f507cSAlex Elder gsi_trans_move_pending(trans);
5999dd441e4SAlex Elder gsi_channel_doorbell(channel);
6009dd441e4SAlex Elder }
6019dd441e4SAlex Elder }
6029dd441e4SAlex Elder
6039dd441e4SAlex Elder /* Commit a GSI transaction */
gsi_trans_commit(struct gsi_trans * trans,bool ring_db)6049dd441e4SAlex Elder void gsi_trans_commit(struct gsi_trans *trans, bool ring_db)
6059dd441e4SAlex Elder {
6063eeabea6SAlex Elder if (trans->used_count)
6079dd441e4SAlex Elder __gsi_trans_commit(trans, ring_db);
6089dd441e4SAlex Elder else
6099dd441e4SAlex Elder gsi_trans_free(trans);
6109dd441e4SAlex Elder }
6119dd441e4SAlex Elder
6129dd441e4SAlex Elder /* Commit a GSI transaction and wait for it to complete */
gsi_trans_commit_wait(struct gsi_trans * trans)6139dd441e4SAlex Elder void gsi_trans_commit_wait(struct gsi_trans *trans)
6149dd441e4SAlex Elder {
6153eeabea6SAlex Elder if (!trans->used_count)
6169dd441e4SAlex Elder goto out_trans_free;
6179dd441e4SAlex Elder
6189dd441e4SAlex Elder refcount_inc(&trans->refcount);
6199dd441e4SAlex Elder
6209dd441e4SAlex Elder __gsi_trans_commit(trans, true);
6219dd441e4SAlex Elder
6229dd441e4SAlex Elder wait_for_completion(&trans->completion);
6239dd441e4SAlex Elder
6249dd441e4SAlex Elder out_trans_free:
6259dd441e4SAlex Elder gsi_trans_free(trans);
6269dd441e4SAlex Elder }
6279dd441e4SAlex Elder
6289dd441e4SAlex Elder /* Process the completion of a transaction; called while polling */
gsi_trans_complete(struct gsi_trans * trans)6299dd441e4SAlex Elder void gsi_trans_complete(struct gsi_trans *trans)
6309dd441e4SAlex Elder {
6319dd441e4SAlex Elder /* If the entire SGL was mapped when added, unmap it now */
6329dd441e4SAlex Elder if (trans->direction != DMA_NONE)
6333eeabea6SAlex Elder dma_unmap_sg(trans->gsi->dev, trans->sgl, trans->used_count,
6349dd441e4SAlex Elder trans->direction);
6359dd441e4SAlex Elder
6369dd441e4SAlex Elder ipa_gsi_trans_complete(trans);
6379dd441e4SAlex Elder
6389dd441e4SAlex Elder complete(&trans->completion);
6399dd441e4SAlex Elder
6409dd441e4SAlex Elder gsi_trans_free(trans);
6419dd441e4SAlex Elder }
6429dd441e4SAlex Elder
6439dd441e4SAlex Elder /* Cancel a channel's pending transactions */
gsi_channel_trans_cancel_pending(struct gsi_channel * channel)6449dd441e4SAlex Elder void gsi_channel_trans_cancel_pending(struct gsi_channel *channel)
6459dd441e4SAlex Elder {
6469dd441e4SAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info;
6470c126ec3SAlex Elder u16 trans_id = trans_info->pending_id;
6489dd441e4SAlex Elder
6499dd441e4SAlex Elder /* channel->gsi->mutex is held by caller */
6509dd441e4SAlex Elder
6510c126ec3SAlex Elder /* If there are no pending transactions, we're done */
6520c126ec3SAlex Elder if (trans_id == trans_info->committed_id)
6530c126ec3SAlex Elder return;
6548672bab7SAlex Elder
6550c126ec3SAlex Elder /* Mark all pending transactions cancelled */
6560c126ec3SAlex Elder do {
6570c126ec3SAlex Elder struct gsi_trans *trans;
6580c126ec3SAlex Elder
6590c126ec3SAlex Elder trans = &trans_info->trans[trans_id % channel->tre_count];
6600c126ec3SAlex Elder trans->cancelled = true;
6610c126ec3SAlex Elder } while (++trans_id != trans_info->committed_id);
6620c126ec3SAlex Elder
6630c126ec3SAlex Elder /* All pending transactions are now completed */
6648672bab7SAlex Elder trans_info->pending_id = trans_info->committed_id;
6658672bab7SAlex Elder
6669dd441e4SAlex Elder /* Schedule NAPI polling to complete the cancelled transactions */
6679dd441e4SAlex Elder napi_schedule(&channel->napi);
6689dd441e4SAlex Elder }
6699dd441e4SAlex Elder
6709dd441e4SAlex Elder /* Issue a command to read a single byte from a channel */
gsi_trans_read_byte(struct gsi * gsi,u32 channel_id,dma_addr_t addr)6719dd441e4SAlex Elder int gsi_trans_read_byte(struct gsi *gsi, u32 channel_id, dma_addr_t addr)
6729dd441e4SAlex Elder {
6739dd441e4SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id];
6742295947bSAlex Elder struct gsi_ring *tre_ring = &channel->tre_ring;
6759dd441e4SAlex Elder struct gsi_trans_info *trans_info;
6769dd441e4SAlex Elder struct gsi_tre *dest_tre;
6779dd441e4SAlex Elder
6789dd441e4SAlex Elder trans_info = &channel->trans_info;
6799dd441e4SAlex Elder
6809dd441e4SAlex Elder /* First reserve the TRE, if possible */
6819dd441e4SAlex Elder if (!gsi_trans_tre_reserve(trans_info, 1))
6829dd441e4SAlex Elder return -EBUSY;
6839dd441e4SAlex Elder
6847c0d97e4SJiang Jian /* Now fill the reserved TRE and tell the hardware */
6859dd441e4SAlex Elder
6862295947bSAlex Elder dest_tre = gsi_ring_virt(tre_ring, tre_ring->index);
6879dd441e4SAlex Elder gsi_trans_tre_fill(dest_tre, addr, 1, true, false, IPA_CMD_NONE);
6889dd441e4SAlex Elder
6892295947bSAlex Elder tre_ring->index++;
6909dd441e4SAlex Elder gsi_channel_doorbell(channel);
6919dd441e4SAlex Elder
6929dd441e4SAlex Elder return 0;
6939dd441e4SAlex Elder }
6949dd441e4SAlex Elder
6959dd441e4SAlex Elder /* Mark a gsi_trans_read_byte() request done */
gsi_trans_read_byte_done(struct gsi * gsi,u32 channel_id)6969dd441e4SAlex Elder void gsi_trans_read_byte_done(struct gsi *gsi, u32 channel_id)
6979dd441e4SAlex Elder {
6989dd441e4SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id];
6999dd441e4SAlex Elder
7009dd441e4SAlex Elder gsi_trans_tre_release(&channel->trans_info, 1);
7019dd441e4SAlex Elder }
7029dd441e4SAlex Elder
7039dd441e4SAlex Elder /* Initialize a channel's GSI transaction info */
gsi_channel_trans_init(struct gsi * gsi,u32 channel_id)7049dd441e4SAlex Elder int gsi_channel_trans_init(struct gsi *gsi, u32 channel_id)
7059dd441e4SAlex Elder {
7069dd441e4SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id];
70749200658SAlex Elder u32 tre_count = channel->tre_count;
7089dd441e4SAlex Elder struct gsi_trans_info *trans_info;
7099dd441e4SAlex Elder u32 tre_max;
7109dd441e4SAlex Elder int ret;
7119dd441e4SAlex Elder
7129dd441e4SAlex Elder /* Ensure the size of a channel element is what's expected */
7139dd441e4SAlex Elder BUILD_BUG_ON(sizeof(struct gsi_tre) != GSI_RING_ELEMENT_SIZE);
7149dd441e4SAlex Elder
7159dd441e4SAlex Elder trans_info = &channel->trans_info;
7169dd441e4SAlex Elder
71749200658SAlex Elder /* The tre_avail field is what ultimately limits the number of
71849200658SAlex Elder * outstanding transactions and their resources. A transaction
71949200658SAlex Elder * allocation succeeds only if the TREs available are sufficient
72049200658SAlex Elder * for what the transaction might need.
7219dd441e4SAlex Elder */
7229dd441e4SAlex Elder tre_max = gsi_channel_tre_max(channel->gsi, channel_id);
72349200658SAlex Elder atomic_set(&trans_info->tre_avail, tre_max);
7249dd441e4SAlex Elder
72549200658SAlex Elder /* We can't use more TREs than the number available in the ring.
72649200658SAlex Elder * This limits the number of transactions that can be outstanding.
72749200658SAlex Elder * Worst case is one TRE per transaction (but we actually limit
72849200658SAlex Elder * it to something a little less than that). By allocating a
72949200658SAlex Elder * power-of-two number of transactions we can use an index
73049200658SAlex Elder * modulo that number to determine the next one that's free.
73149200658SAlex Elder * Transactions are allocated one at a time.
73249200658SAlex Elder */
73312382d11SAlex Elder trans_info->trans = kcalloc(tre_count, sizeof(*trans_info->trans),
73412382d11SAlex Elder GFP_KERNEL);
73512382d11SAlex Elder if (!trans_info->trans)
73649200658SAlex Elder return -ENOMEM;
73741e2a2c0SAlex Elder trans_info->free_id = 0; /* all modulo channel->tre_count */
73841e2a2c0SAlex Elder trans_info->allocated_id = 0;
739fc95d958SAlex Elder trans_info->committed_id = 0;
740eeff7c14SAlex Elder trans_info->pending_id = 0;
741949cd0b5SAlex Elder trans_info->completed_id = 0;
742fd3bd039SAlex Elder trans_info->polled_id = 0;
74349200658SAlex Elder
74449200658SAlex Elder /* A completion event contains a pointer to the TRE that caused
74549200658SAlex Elder * the event (which will be the last one used by the transaction).
74649200658SAlex Elder * Each entry in this map records the transaction associated
74749200658SAlex Elder * with a corresponding completed TRE.
74849200658SAlex Elder */
74949200658SAlex Elder trans_info->map = kcalloc(tre_count, sizeof(*trans_info->map),
75049200658SAlex Elder GFP_KERNEL);
75149200658SAlex Elder if (!trans_info->map) {
75249200658SAlex Elder ret = -ENOMEM;
75349200658SAlex Elder goto err_trans_free;
75449200658SAlex Elder }
7559dd441e4SAlex Elder
7569dd441e4SAlex Elder /* A transaction uses a scatterlist array to represent the data
7579dd441e4SAlex Elder * transfers implemented by the transaction. Each scatterlist
7589dd441e4SAlex Elder * element is used to fill a single TRE when the transaction is
7599dd441e4SAlex Elder * committed. So we need as many scatterlist elements as the
7609dd441e4SAlex Elder * maximum number of TREs that can be outstanding.
7619dd441e4SAlex Elder */
7629dd441e4SAlex Elder ret = gsi_trans_pool_init(&trans_info->sg_pool,
7639dd441e4SAlex Elder sizeof(struct scatterlist),
76488e03057SAlex Elder tre_max, channel->trans_tre_max);
7659dd441e4SAlex Elder if (ret)
76649200658SAlex Elder goto err_map_free;
7679dd441e4SAlex Elder
7689dd441e4SAlex Elder
7699dd441e4SAlex Elder return 0;
7709dd441e4SAlex Elder
77149200658SAlex Elder err_map_free:
7729dd441e4SAlex Elder kfree(trans_info->map);
77349200658SAlex Elder err_trans_free:
77412382d11SAlex Elder kfree(trans_info->trans);
7759dd441e4SAlex Elder
7769dd441e4SAlex Elder dev_err(gsi->dev, "error %d initializing channel %u transactions\n",
7779dd441e4SAlex Elder ret, channel_id);
7789dd441e4SAlex Elder
7799dd441e4SAlex Elder return ret;
7809dd441e4SAlex Elder }
7819dd441e4SAlex Elder
7829dd441e4SAlex Elder /* Inverse of gsi_channel_trans_init() */
gsi_channel_trans_exit(struct gsi_channel * channel)7839dd441e4SAlex Elder void gsi_channel_trans_exit(struct gsi_channel *channel)
7849dd441e4SAlex Elder {
7859dd441e4SAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info;
7869dd441e4SAlex Elder
7879dd441e4SAlex Elder gsi_trans_pool_exit(&trans_info->sg_pool);
78812382d11SAlex Elder kfree(trans_info->trans);
7899dd441e4SAlex Elder kfree(trans_info->map);
7909dd441e4SAlex Elder }
791