19dd441e4SAlex Elder // SPDX-License-Identifier: GPL-2.0 29dd441e4SAlex Elder 39dd441e4SAlex Elder /* Copyright (c) 2012-2018, The Linux Foundation. All rights reserved. 49dd441e4SAlex Elder * Copyright (C) 2019-2020 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 259dd441e4SAlex Elder * everything about a related group of IPA commands in a single structure. 269dd441e4SAlex Elder * (A "command" 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 289dd441e4SAlex Elder * by the GSI transaction core, allowing users to simply describe commands 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 * 339dd441e4SAlex Elder * To perform a command (or set of them), a user of the GSI transaction 349dd441e4SAlex Elder * interface allocates a transaction, indicating the number of TREs required 359dd441e4SAlex Elder * (one per command). If sufficient TREs are available, they are reserved 369dd441e4SAlex Elder * for use in the transaction and the allocation succeeds. This way 379dd441e4SAlex Elder * exhaustion of the available TREs in a channel ring is detected 389dd441e4SAlex Elder * as early as possible. All resources required to complete a transaction 399dd441e4SAlex Elder * are allocated at transaction allocation time. 409dd441e4SAlex Elder * 419dd441e4SAlex Elder * Commands performed as part of a transaction are represented in an array 429dd441e4SAlex Elder * of Linux scatterlist structures. This array is allocated with the 439dd441e4SAlex Elder * transaction, and its entries are initialized using standard scatterlist 449dd441e4SAlex Elder * functions (such as sg_set_buf() or skb_to_sgvec()). 459dd441e4SAlex Elder * 469dd441e4SAlex Elder * Once a transaction's scatterlist structures have been initialized, the 479dd441e4SAlex Elder * transaction is committed. The caller is responsible for mapping buffers 489dd441e4SAlex Elder * for DMA if necessary, and this should be done *before* allocating 499dd441e4SAlex Elder * the transaction. Between a successful allocation and commit of a 509dd441e4SAlex Elder * transaction no errors should occur. 519dd441e4SAlex Elder * 529dd441e4SAlex Elder * Committing transfers ownership of the entire transaction to the GSI 539dd441e4SAlex Elder * transaction core. The GSI transaction code formats the content of 549dd441e4SAlex Elder * the scatterlist array into the channel ring buffer and informs the 559dd441e4SAlex Elder * hardware that new TREs are available to process. 569dd441e4SAlex Elder * 579dd441e4SAlex Elder * The last TRE in each transaction is marked to interrupt the AP when the 589dd441e4SAlex Elder * GSI hardware has completed it. Because transfers described by TREs are 599dd441e4SAlex Elder * performed strictly in order, signaling the completion of just the last 609dd441e4SAlex Elder * TRE in the transaction is sufficient to indicate the full transaction 619dd441e4SAlex Elder * is complete. 629dd441e4SAlex Elder * 639dd441e4SAlex Elder * When a transaction is complete, ipa_gsi_trans_complete() is called by the 649dd441e4SAlex Elder * GSI code into the IPA layer, allowing it to perform any final cleanup 659dd441e4SAlex Elder * required before the transaction is freed. 669dd441e4SAlex Elder */ 679dd441e4SAlex Elder 689dd441e4SAlex Elder /* Hardware values representing a transfer element type */ 699dd441e4SAlex Elder enum gsi_tre_type { 709dd441e4SAlex Elder GSI_RE_XFER = 0x2, 719dd441e4SAlex Elder GSI_RE_IMMD_CMD = 0x3, 729dd441e4SAlex Elder }; 739dd441e4SAlex Elder 749dd441e4SAlex Elder /* An entry in a channel ring */ 759dd441e4SAlex Elder struct gsi_tre { 769dd441e4SAlex Elder __le64 addr; /* DMA address */ 779dd441e4SAlex Elder __le16 len_opcode; /* length in bytes or enum IPA_CMD_* */ 789dd441e4SAlex Elder __le16 reserved; 799dd441e4SAlex Elder __le32 flags; /* TRE_FLAGS_* */ 809dd441e4SAlex Elder }; 819dd441e4SAlex Elder 829dd441e4SAlex Elder /* gsi_tre->flags mask values (in CPU byte order) */ 839dd441e4SAlex Elder #define TRE_FLAGS_CHAIN_FMASK GENMASK(0, 0) 849dd441e4SAlex Elder #define TRE_FLAGS_IEOT_FMASK GENMASK(9, 9) 859dd441e4SAlex Elder #define TRE_FLAGS_BEI_FMASK GENMASK(10, 10) 869dd441e4SAlex Elder #define TRE_FLAGS_TYPE_FMASK GENMASK(23, 16) 879dd441e4SAlex Elder 889dd441e4SAlex Elder int gsi_trans_pool_init(struct gsi_trans_pool *pool, size_t size, u32 count, 899dd441e4SAlex Elder u32 max_alloc) 909dd441e4SAlex Elder { 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 */ 1079dd441e4SAlex Elder virt = kcalloc(count + max_alloc - 1, size, GFP_KERNEL); 1089dd441e4SAlex Elder if (!virt) 1099dd441e4SAlex Elder return -ENOMEM; 1109dd441e4SAlex Elder 1119dd441e4SAlex Elder pool->base = virt; 1129dd441e4SAlex Elder /* If the allocator gave us any extra memory, use it */ 1139dd441e4SAlex Elder pool->count = ksize(pool->base) / size; 1149dd441e4SAlex Elder pool->free = 0; 1159dd441e4SAlex Elder pool->max_alloc = max_alloc; 1169dd441e4SAlex Elder pool->size = size; 1179dd441e4SAlex Elder pool->addr = 0; /* Only used for DMA pools */ 1189dd441e4SAlex Elder 1199dd441e4SAlex Elder return 0; 1209dd441e4SAlex Elder } 1219dd441e4SAlex Elder 1229dd441e4SAlex Elder void gsi_trans_pool_exit(struct gsi_trans_pool *pool) 1239dd441e4SAlex Elder { 1249dd441e4SAlex Elder kfree(pool->base); 1259dd441e4SAlex Elder memset(pool, 0, sizeof(*pool)); 1269dd441e4SAlex Elder } 1279dd441e4SAlex Elder 1289dd441e4SAlex Elder /* Allocate the requested number of (zeroed) entries from the pool */ 1299dd441e4SAlex Elder /* Home-grown DMA pool. This way we can preallocate and use the tre_count 1309dd441e4SAlex Elder * to guarantee allocations will succeed. Even though we specify max_alloc 1319dd441e4SAlex Elder * (and it can be more than one), we only allow allocation of a single 1329dd441e4SAlex Elder * element from a DMA pool. 1339dd441e4SAlex Elder */ 1349dd441e4SAlex Elder int gsi_trans_pool_init_dma(struct device *dev, struct gsi_trans_pool *pool, 1359dd441e4SAlex Elder size_t size, u32 count, u32 max_alloc) 1369dd441e4SAlex Elder { 1379dd441e4SAlex Elder size_t total_size; 1389dd441e4SAlex Elder dma_addr_t addr; 1399dd441e4SAlex Elder void *virt; 1409dd441e4SAlex Elder 1417ad3bd52SAlex Elder if (!size) 1429dd441e4SAlex Elder return -EINVAL; 1439dd441e4SAlex Elder if (count < max_alloc) 1449dd441e4SAlex Elder return -EINVAL; 1459dd441e4SAlex Elder if (!max_alloc) 1469dd441e4SAlex Elder return -EINVAL; 1479dd441e4SAlex Elder 1489dd441e4SAlex Elder /* Don't let allocations cross a power-of-two boundary */ 1499dd441e4SAlex Elder size = __roundup_pow_of_two(size); 1509dd441e4SAlex Elder total_size = (count + max_alloc - 1) * size; 1519dd441e4SAlex Elder 15219aaf72cSAlex Elder /* The allocator will give us a power-of-2 number of pages 15319aaf72cSAlex Elder * sufficient to satisfy our request. Round up our requested 15419aaf72cSAlex Elder * size to avoid any unused space in the allocation. This way 15519aaf72cSAlex Elder * gsi_trans_pool_exit_dma() can assume the total allocated 1561130b252SAlex Elder * size is exactly (count * size). 1579dd441e4SAlex Elder */ 1589dd441e4SAlex Elder total_size = get_order(total_size) << PAGE_SHIFT; 1599dd441e4SAlex Elder 1609dd441e4SAlex Elder virt = dma_alloc_coherent(dev, total_size, &addr, GFP_KERNEL); 1619dd441e4SAlex Elder if (!virt) 1629dd441e4SAlex Elder return -ENOMEM; 1639dd441e4SAlex Elder 1649dd441e4SAlex Elder pool->base = virt; 1659dd441e4SAlex Elder pool->count = total_size / size; 1669dd441e4SAlex Elder pool->free = 0; 1679dd441e4SAlex Elder pool->size = size; 1689dd441e4SAlex Elder pool->max_alloc = max_alloc; 1699dd441e4SAlex Elder pool->addr = addr; 1709dd441e4SAlex Elder 1719dd441e4SAlex Elder return 0; 1729dd441e4SAlex Elder } 1739dd441e4SAlex Elder 1749dd441e4SAlex Elder void gsi_trans_pool_exit_dma(struct device *dev, struct gsi_trans_pool *pool) 1759dd441e4SAlex Elder { 1761130b252SAlex Elder size_t total_size = pool->count * pool->size; 1771130b252SAlex Elder 1781130b252SAlex Elder dma_free_coherent(dev, total_size, pool->base, pool->addr); 1799dd441e4SAlex Elder memset(pool, 0, sizeof(*pool)); 1809dd441e4SAlex Elder } 1819dd441e4SAlex Elder 1829dd441e4SAlex Elder /* Return the byte offset of the next free entry in the pool */ 1839dd441e4SAlex Elder static u32 gsi_trans_pool_alloc_common(struct gsi_trans_pool *pool, u32 count) 1849dd441e4SAlex Elder { 1859dd441e4SAlex Elder u32 offset; 1869dd441e4SAlex Elder 1875bc55884SAlex Elder WARN_ON(!count); 1885bc55884SAlex Elder WARN_ON(count > pool->max_alloc); 1899dd441e4SAlex Elder 1909dd441e4SAlex Elder /* Allocate from beginning if wrap would occur */ 1919dd441e4SAlex Elder if (count > pool->count - pool->free) 1929dd441e4SAlex Elder pool->free = 0; 1939dd441e4SAlex Elder 1949dd441e4SAlex Elder offset = pool->free * pool->size; 1959dd441e4SAlex Elder pool->free += count; 1969dd441e4SAlex Elder memset(pool->base + offset, 0, count * pool->size); 1979dd441e4SAlex Elder 1989dd441e4SAlex Elder return offset; 1999dd441e4SAlex Elder } 2009dd441e4SAlex Elder 2019dd441e4SAlex Elder /* Allocate a contiguous block of zeroed entries from a pool */ 2029dd441e4SAlex Elder void *gsi_trans_pool_alloc(struct gsi_trans_pool *pool, u32 count) 2039dd441e4SAlex Elder { 2049dd441e4SAlex Elder return pool->base + gsi_trans_pool_alloc_common(pool, count); 2059dd441e4SAlex Elder } 2069dd441e4SAlex Elder 2079dd441e4SAlex Elder /* Allocate a single zeroed entry from a DMA pool */ 2089dd441e4SAlex Elder void *gsi_trans_pool_alloc_dma(struct gsi_trans_pool *pool, dma_addr_t *addr) 2099dd441e4SAlex Elder { 2109dd441e4SAlex Elder u32 offset = gsi_trans_pool_alloc_common(pool, 1); 2119dd441e4SAlex Elder 2129dd441e4SAlex Elder *addr = pool->addr + offset; 2139dd441e4SAlex Elder 2149dd441e4SAlex Elder return pool->base + offset; 2159dd441e4SAlex Elder } 2169dd441e4SAlex Elder 2178eec7831SAlex Elder /* Map a TRE ring entry index to the transaction it is associated with */ 2188eec7831SAlex Elder static void gsi_trans_map(struct gsi_trans *trans, u32 index) 2199dd441e4SAlex Elder { 2208eec7831SAlex Elder struct gsi_channel *channel = &trans->gsi->channel[trans->channel_id]; 2218eec7831SAlex Elder 2228eec7831SAlex Elder /* The completion event will indicate the last TRE used */ 2238eec7831SAlex Elder index += trans->used_count - 1; 2248eec7831SAlex Elder 2259dd441e4SAlex Elder /* Note: index *must* be used modulo the ring count here */ 2269dd441e4SAlex Elder channel->trans_info.map[index % channel->tre_ring.count] = trans; 2279dd441e4SAlex Elder } 2289dd441e4SAlex Elder 2299dd441e4SAlex Elder /* Return the transaction mapped to a given ring entry */ 2309dd441e4SAlex Elder struct gsi_trans * 2319dd441e4SAlex Elder gsi_channel_trans_mapped(struct gsi_channel *channel, u32 index) 2329dd441e4SAlex Elder { 2339dd441e4SAlex Elder /* Note: index *must* be used modulo the ring count here */ 2349dd441e4SAlex Elder return channel->trans_info.map[index % channel->tre_ring.count]; 2359dd441e4SAlex Elder } 2369dd441e4SAlex Elder 2379dd441e4SAlex Elder /* Return the oldest completed transaction for a channel (or null) */ 2389dd441e4SAlex Elder struct gsi_trans *gsi_channel_trans_complete(struct gsi_channel *channel) 2399dd441e4SAlex Elder { 2408672bab7SAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info; 2418672bab7SAlex Elder u16 trans_id = trans_info->completed_id; 2428672bab7SAlex Elder 243*0c126ec3SAlex Elder if (trans_id == trans_info->pending_id) 2448672bab7SAlex Elder return NULL; 2458672bab7SAlex Elder 246*0c126ec3SAlex Elder return &trans_info->trans[trans_id %= channel->tre_count]; 2479dd441e4SAlex Elder } 2489dd441e4SAlex Elder 249b63f507cSAlex Elder /* Move a transaction from the allocated list to the committed list */ 250b63f507cSAlex Elder static void gsi_trans_move_committed(struct gsi_trans *trans) 2519dd441e4SAlex Elder { 2529dd441e4SAlex Elder struct gsi_channel *channel = &trans->gsi->channel[trans->channel_id]; 2539dd441e4SAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info; 2549dd441e4SAlex Elder 2559dd441e4SAlex Elder spin_lock_bh(&trans_info->spinlock); 2569dd441e4SAlex Elder 257b63f507cSAlex Elder list_move_tail(&trans->links, &trans_info->committed); 258b63f507cSAlex Elder 259b63f507cSAlex Elder spin_unlock_bh(&trans_info->spinlock); 26041e2a2c0SAlex Elder 26141e2a2c0SAlex Elder /* This allocated transaction is now committed */ 26241e2a2c0SAlex Elder trans_info->allocated_id++; 263b63f507cSAlex Elder } 264b63f507cSAlex Elder 265b63f507cSAlex Elder /* Move transactions from the committed list to the pending list */ 266b63f507cSAlex Elder static void gsi_trans_move_pending(struct gsi_trans *trans) 267b63f507cSAlex Elder { 268b63f507cSAlex Elder struct gsi_channel *channel = &trans->gsi->channel[trans->channel_id]; 269b63f507cSAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info; 270fc95d958SAlex Elder u16 trans_index = trans - &trans_info->trans[0]; 271b63f507cSAlex Elder struct list_head list; 272fc95d958SAlex Elder u16 delta; 273b63f507cSAlex Elder 274b63f507cSAlex Elder spin_lock_bh(&trans_info->spinlock); 275b63f507cSAlex Elder 276b63f507cSAlex Elder /* Move this transaction and all predecessors to the pending list */ 277b63f507cSAlex Elder list_cut_position(&list, &trans_info->committed, &trans->links); 278b63f507cSAlex Elder list_splice_tail(&list, &trans_info->pending); 2799dd441e4SAlex Elder 2809dd441e4SAlex Elder spin_unlock_bh(&trans_info->spinlock); 281fc95d958SAlex Elder 282fc95d958SAlex Elder /* These committed transactions are now pending */ 283fc95d958SAlex Elder delta = trans_index - trans_info->committed_id + 1; 284fc95d958SAlex Elder trans_info->committed_id += delta % channel->tre_count; 2859dd441e4SAlex Elder } 2869dd441e4SAlex Elder 2879dd441e4SAlex Elder /* Move a transaction and all of its predecessors from the pending list 2889dd441e4SAlex Elder * to the completed list. 2899dd441e4SAlex Elder */ 2909dd441e4SAlex Elder void gsi_trans_move_complete(struct gsi_trans *trans) 2919dd441e4SAlex Elder { 2929dd441e4SAlex Elder struct gsi_channel *channel = &trans->gsi->channel[trans->channel_id]; 2939dd441e4SAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info; 294eeff7c14SAlex Elder u16 trans_index = trans - trans_info->trans; 2959dd441e4SAlex Elder struct list_head list; 296eeff7c14SAlex Elder u16 delta; 2979dd441e4SAlex Elder 2989dd441e4SAlex Elder spin_lock_bh(&trans_info->spinlock); 2999dd441e4SAlex Elder 3009dd441e4SAlex Elder /* Move this transaction and all predecessors to completed list */ 3019dd441e4SAlex Elder list_cut_position(&list, &trans_info->pending, &trans->links); 3029dd441e4SAlex Elder list_splice_tail(&list, &trans_info->complete); 3039dd441e4SAlex Elder 3049dd441e4SAlex Elder spin_unlock_bh(&trans_info->spinlock); 305eeff7c14SAlex Elder 306eeff7c14SAlex Elder /* These pending transactions are now completed */ 307eeff7c14SAlex Elder delta = trans_index - trans_info->pending_id + 1; 308eeff7c14SAlex Elder delta %= channel->tre_count; 309eeff7c14SAlex Elder trans_info->pending_id += delta; 3109dd441e4SAlex Elder } 3119dd441e4SAlex Elder 3129dd441e4SAlex Elder /* Move a transaction from the completed list to the polled list */ 3139dd441e4SAlex Elder void gsi_trans_move_polled(struct gsi_trans *trans) 3149dd441e4SAlex Elder { 3159dd441e4SAlex Elder struct gsi_channel *channel = &trans->gsi->channel[trans->channel_id]; 3169dd441e4SAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info; 3179dd441e4SAlex Elder 3189dd441e4SAlex Elder spin_lock_bh(&trans_info->spinlock); 3199dd441e4SAlex Elder 3209dd441e4SAlex Elder list_move_tail(&trans->links, &trans_info->polled); 3219dd441e4SAlex Elder 3229dd441e4SAlex Elder spin_unlock_bh(&trans_info->spinlock); 323949cd0b5SAlex Elder 324949cd0b5SAlex Elder /* This completed transaction is now polled */ 325949cd0b5SAlex Elder trans_info->completed_id++; 3269dd441e4SAlex Elder } 3279dd441e4SAlex Elder 3289dd441e4SAlex Elder /* Reserve some number of TREs on a channel. Returns true if successful */ 3299dd441e4SAlex Elder static bool 3309dd441e4SAlex Elder gsi_trans_tre_reserve(struct gsi_trans_info *trans_info, u32 tre_count) 3319dd441e4SAlex Elder { 3329dd441e4SAlex Elder int avail = atomic_read(&trans_info->tre_avail); 3339dd441e4SAlex Elder int new; 3349dd441e4SAlex Elder 3359dd441e4SAlex Elder do { 3369dd441e4SAlex Elder new = avail - (int)tre_count; 3379dd441e4SAlex Elder if (unlikely(new < 0)) 3389dd441e4SAlex Elder return false; 3399dd441e4SAlex Elder } while (!atomic_try_cmpxchg(&trans_info->tre_avail, &avail, new)); 3409dd441e4SAlex Elder 3419dd441e4SAlex Elder return true; 3429dd441e4SAlex Elder } 3439dd441e4SAlex Elder 3449dd441e4SAlex Elder /* Release previously-reserved TRE entries to a channel */ 3459dd441e4SAlex Elder static void 3469dd441e4SAlex Elder gsi_trans_tre_release(struct gsi_trans_info *trans_info, u32 tre_count) 3479dd441e4SAlex Elder { 3489dd441e4SAlex Elder atomic_add(tre_count, &trans_info->tre_avail); 3499dd441e4SAlex Elder } 3509dd441e4SAlex Elder 3515fc7f9baSAlex Elder /* Return true if no transactions are allocated, false otherwise */ 3525fc7f9baSAlex Elder bool gsi_channel_trans_idle(struct gsi *gsi, u32 channel_id) 3535fc7f9baSAlex Elder { 3545fc7f9baSAlex Elder u32 tre_max = gsi_channel_tre_max(gsi, channel_id); 3555fc7f9baSAlex Elder struct gsi_trans_info *trans_info; 3565fc7f9baSAlex Elder 3575fc7f9baSAlex Elder trans_info = &gsi->channel[channel_id].trans_info; 3585fc7f9baSAlex Elder 3595fc7f9baSAlex Elder return atomic_read(&trans_info->tre_avail) == tre_max; 3605fc7f9baSAlex Elder } 3615fc7f9baSAlex Elder 3629dd441e4SAlex Elder /* Allocate a GSI transaction on a channel */ 3639dd441e4SAlex Elder struct gsi_trans *gsi_channel_trans_alloc(struct gsi *gsi, u32 channel_id, 3649dd441e4SAlex Elder u32 tre_count, 3659dd441e4SAlex Elder enum dma_data_direction direction) 3669dd441e4SAlex Elder { 3679dd441e4SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 3689dd441e4SAlex Elder struct gsi_trans_info *trans_info; 3699dd441e4SAlex Elder struct gsi_trans *trans; 37012382d11SAlex Elder u16 trans_index; 3719dd441e4SAlex Elder 37288e03057SAlex Elder if (WARN_ON(tre_count > channel->trans_tre_max)) 3735bc55884SAlex Elder return NULL; 3749dd441e4SAlex Elder 3759dd441e4SAlex Elder trans_info = &channel->trans_info; 3769dd441e4SAlex Elder 37712382d11SAlex Elder /* If we can't reserve the TREs for the transaction, we're done */ 3789dd441e4SAlex Elder if (!gsi_trans_tre_reserve(trans_info, tre_count)) 3799dd441e4SAlex Elder return NULL; 3809dd441e4SAlex Elder 38112382d11SAlex Elder trans_index = trans_info->free_id % channel->tre_count; 38212382d11SAlex Elder trans = &trans_info->trans[trans_index]; 38312382d11SAlex Elder memset(trans, 0, sizeof(*trans)); 38412382d11SAlex Elder 38512382d11SAlex Elder /* Initialize non-zero fields in the transaction */ 3869dd441e4SAlex Elder trans->gsi = gsi; 3879dd441e4SAlex Elder trans->channel_id = channel_id; 3883eeabea6SAlex Elder trans->rsvd_count = tre_count; 3899dd441e4SAlex Elder init_completion(&trans->completion); 3909dd441e4SAlex Elder 391616c4a83SAlex Elder /* Allocate the scatterlist */ 3929dd441e4SAlex Elder trans->sgl = gsi_trans_pool_alloc(&trans_info->sg_pool, tre_count); 3939dd441e4SAlex Elder sg_init_marker(trans->sgl, tre_count); 3949dd441e4SAlex Elder 3959dd441e4SAlex Elder trans->direction = direction; 39612382d11SAlex Elder refcount_set(&trans->refcount, 1); 39712382d11SAlex Elder 39812382d11SAlex Elder /* This free transaction will now be allocated */ 39912382d11SAlex Elder trans_info->free_id++; 4009dd441e4SAlex Elder 4019dd441e4SAlex Elder spin_lock_bh(&trans_info->spinlock); 4029dd441e4SAlex Elder 4039dd441e4SAlex Elder list_add_tail(&trans->links, &trans_info->alloc); 4049dd441e4SAlex Elder 4059dd441e4SAlex Elder spin_unlock_bh(&trans_info->spinlock); 4069dd441e4SAlex Elder 4079dd441e4SAlex Elder return trans; 4089dd441e4SAlex Elder } 4099dd441e4SAlex Elder 410064c9c32SAlex Elder /* Free a previously-allocated transaction */ 4119dd441e4SAlex Elder void gsi_trans_free(struct gsi_trans *trans) 4129dd441e4SAlex Elder { 413064c9c32SAlex Elder refcount_t *refcount = &trans->refcount; 4149dd441e4SAlex Elder struct gsi_trans_info *trans_info; 415064c9c32SAlex Elder bool last; 4169dd441e4SAlex Elder 417064c9c32SAlex Elder /* We must hold the lock to release the last reference */ 418064c9c32SAlex Elder if (refcount_dec_not_one(refcount)) 4199dd441e4SAlex Elder return; 4209dd441e4SAlex Elder 4219dd441e4SAlex Elder trans_info = &trans->gsi->channel[trans->channel_id].trans_info; 4229dd441e4SAlex Elder 4239dd441e4SAlex Elder spin_lock_bh(&trans_info->spinlock); 4249dd441e4SAlex Elder 425064c9c32SAlex Elder /* Reference might have been added before we got the lock */ 426064c9c32SAlex Elder last = refcount_dec_and_test(refcount); 427064c9c32SAlex Elder if (last) 4289dd441e4SAlex Elder list_del(&trans->links); 4299dd441e4SAlex Elder 4309dd441e4SAlex Elder spin_unlock_bh(&trans_info->spinlock); 4319dd441e4SAlex Elder 432064c9c32SAlex Elder if (!last) 433064c9c32SAlex Elder return; 434064c9c32SAlex Elder 435eeff7c14SAlex Elder /* Unused transactions are allocated but never committed, pending, 436949cd0b5SAlex Elder * completed, or polled. 437eeff7c14SAlex Elder */ 438fc95d958SAlex Elder if (!trans->used_count) { 43941e2a2c0SAlex Elder trans_info->allocated_id++; 440fc95d958SAlex Elder trans_info->committed_id++; 441eeff7c14SAlex Elder trans_info->pending_id++; 442949cd0b5SAlex Elder trans_info->completed_id++; 443fc95d958SAlex Elder } else { 4449dd441e4SAlex Elder ipa_gsi_trans_release(trans); 445fc95d958SAlex Elder } 4469dd441e4SAlex Elder 447fd3bd039SAlex Elder /* This transaction is now free */ 448fd3bd039SAlex Elder trans_info->polled_id++; 449fd3bd039SAlex Elder 4509dd441e4SAlex Elder /* Releasing the reserved TREs implicitly frees the sgl[] and 4519dd441e4SAlex Elder * (if present) info[] arrays, plus the transaction itself. 4529dd441e4SAlex Elder */ 4533eeabea6SAlex Elder gsi_trans_tre_release(trans_info, trans->rsvd_count); 4549dd441e4SAlex Elder } 4559dd441e4SAlex Elder 4569dd441e4SAlex Elder /* Add an immediate command to a transaction */ 4579dd441e4SAlex Elder void gsi_trans_cmd_add(struct gsi_trans *trans, void *buf, u32 size, 4584de284b7SAlex Elder dma_addr_t addr, enum ipa_cmd_opcode opcode) 4599dd441e4SAlex Elder { 4603eeabea6SAlex Elder u32 which = trans->used_count++; 4619dd441e4SAlex Elder struct scatterlist *sg; 4629dd441e4SAlex Elder 4633eeabea6SAlex Elder WARN_ON(which >= trans->rsvd_count); 4649dd441e4SAlex Elder 465df833050SAlex Elder /* Commands are quite different from data transfer requests. 466df833050SAlex Elder * Their payloads come from a pool whose memory is allocated 467df833050SAlex Elder * using dma_alloc_coherent(). We therefore do *not* map them 468df833050SAlex Elder * for DMA (unlike what we do for pages and skbs). 469df833050SAlex Elder * 470df833050SAlex Elder * When a transaction completes, the SGL is normally unmapped. 471df833050SAlex Elder * A command transaction has direction DMA_NONE, which tells 472df833050SAlex Elder * gsi_trans_complete() to skip the unmapping step. 473df833050SAlex Elder * 474df833050SAlex Elder * The only things we use directly in a command scatter/gather 475df833050SAlex Elder * entry are the DMA address and length. We still need the SG 476df833050SAlex Elder * table flags to be maintained though, so assign a NULL page 477df833050SAlex Elder * pointer for that purpose. 4789dd441e4SAlex Elder */ 4799dd441e4SAlex Elder sg = &trans->sgl[which]; 480df833050SAlex Elder sg_assign_page(sg, NULL); 4819dd441e4SAlex Elder sg_dma_address(sg) = addr; 482df833050SAlex Elder sg_dma_len(sg) = size; 4839dd441e4SAlex Elder 4848797972aSAlex Elder trans->cmd_opcode[which] = opcode; 4859dd441e4SAlex Elder } 4869dd441e4SAlex Elder 4879dd441e4SAlex Elder /* Add a page transfer to a transaction. It will fill the only TRE. */ 4889dd441e4SAlex Elder int gsi_trans_page_add(struct gsi_trans *trans, struct page *page, u32 size, 4899dd441e4SAlex Elder u32 offset) 4909dd441e4SAlex Elder { 4919dd441e4SAlex Elder struct scatterlist *sg = &trans->sgl[0]; 4929dd441e4SAlex Elder int ret; 4939dd441e4SAlex Elder 4943eeabea6SAlex Elder if (WARN_ON(trans->rsvd_count != 1)) 4955bc55884SAlex Elder return -EINVAL; 4963eeabea6SAlex Elder if (WARN_ON(trans->used_count)) 4975bc55884SAlex Elder return -EINVAL; 4989dd441e4SAlex Elder 4999dd441e4SAlex Elder sg_set_page(sg, page, size, offset); 5009dd441e4SAlex Elder ret = dma_map_sg(trans->gsi->dev, sg, 1, trans->direction); 5019dd441e4SAlex Elder if (!ret) 5029dd441e4SAlex Elder return -ENOMEM; 5039dd441e4SAlex Elder 5043eeabea6SAlex Elder trans->used_count++; /* Transaction now owns the (DMA mapped) page */ 5059dd441e4SAlex Elder 5069dd441e4SAlex Elder return 0; 5079dd441e4SAlex Elder } 5089dd441e4SAlex Elder 5099dd441e4SAlex Elder /* Add an SKB transfer to a transaction. No other TREs will be used. */ 5109dd441e4SAlex Elder int gsi_trans_skb_add(struct gsi_trans *trans, struct sk_buff *skb) 5119dd441e4SAlex Elder { 5129dd441e4SAlex Elder struct scatterlist *sg = &trans->sgl[0]; 5133eeabea6SAlex Elder u32 used_count; 5149dd441e4SAlex Elder int ret; 5159dd441e4SAlex Elder 5163eeabea6SAlex Elder if (WARN_ON(trans->rsvd_count != 1)) 5175bc55884SAlex Elder return -EINVAL; 5183eeabea6SAlex Elder if (WARN_ON(trans->used_count)) 5195bc55884SAlex Elder return -EINVAL; 5209dd441e4SAlex Elder 5219dd441e4SAlex Elder /* skb->len will not be 0 (checked early) */ 5229dd441e4SAlex Elder ret = skb_to_sgvec(skb, sg, 0, skb->len); 5239dd441e4SAlex Elder if (ret < 0) 5249dd441e4SAlex Elder return ret; 5253eeabea6SAlex Elder used_count = ret; 5269dd441e4SAlex Elder 5273eeabea6SAlex Elder ret = dma_map_sg(trans->gsi->dev, sg, used_count, trans->direction); 5289dd441e4SAlex Elder if (!ret) 5299dd441e4SAlex Elder return -ENOMEM; 5309dd441e4SAlex Elder 5313eeabea6SAlex Elder /* Transaction now owns the (DMA mapped) skb */ 5323eeabea6SAlex Elder trans->used_count += used_count; 5339dd441e4SAlex Elder 5349dd441e4SAlex Elder return 0; 5359dd441e4SAlex Elder } 5369dd441e4SAlex Elder 5379dd441e4SAlex Elder /* Compute the length/opcode value to use for a TRE */ 5389dd441e4SAlex Elder static __le16 gsi_tre_len_opcode(enum ipa_cmd_opcode opcode, u32 len) 5399dd441e4SAlex Elder { 5409dd441e4SAlex Elder return opcode == IPA_CMD_NONE ? cpu_to_le16((u16)len) 5419dd441e4SAlex Elder : cpu_to_le16((u16)opcode); 5429dd441e4SAlex Elder } 5439dd441e4SAlex Elder 5449dd441e4SAlex Elder /* Compute the flags value to use for a given TRE */ 5459dd441e4SAlex Elder static __le32 gsi_tre_flags(bool last_tre, bool bei, enum ipa_cmd_opcode opcode) 5469dd441e4SAlex Elder { 5479dd441e4SAlex Elder enum gsi_tre_type tre_type; 5489dd441e4SAlex Elder u32 tre_flags; 5499dd441e4SAlex Elder 5509dd441e4SAlex Elder tre_type = opcode == IPA_CMD_NONE ? GSI_RE_XFER : GSI_RE_IMMD_CMD; 5519dd441e4SAlex Elder tre_flags = u32_encode_bits(tre_type, TRE_FLAGS_TYPE_FMASK); 5529dd441e4SAlex Elder 5539dd441e4SAlex Elder /* Last TRE contains interrupt flags */ 5549dd441e4SAlex Elder if (last_tre) { 5559dd441e4SAlex Elder /* All transactions end in a transfer completion interrupt */ 5569dd441e4SAlex Elder tre_flags |= TRE_FLAGS_IEOT_FMASK; 5579dd441e4SAlex Elder /* Don't interrupt when outbound commands are acknowledged */ 5589dd441e4SAlex Elder if (bei) 5599dd441e4SAlex Elder tre_flags |= TRE_FLAGS_BEI_FMASK; 5609dd441e4SAlex Elder } else { /* All others indicate there's more to come */ 5619dd441e4SAlex Elder tre_flags |= TRE_FLAGS_CHAIN_FMASK; 5629dd441e4SAlex Elder } 5639dd441e4SAlex Elder 5649dd441e4SAlex Elder return cpu_to_le32(tre_flags); 5659dd441e4SAlex Elder } 5669dd441e4SAlex Elder 5679dd441e4SAlex Elder static void gsi_trans_tre_fill(struct gsi_tre *dest_tre, dma_addr_t addr, 5689dd441e4SAlex Elder u32 len, bool last_tre, bool bei, 5699dd441e4SAlex Elder enum ipa_cmd_opcode opcode) 5709dd441e4SAlex Elder { 5719dd441e4SAlex Elder struct gsi_tre tre; 5729dd441e4SAlex Elder 5739dd441e4SAlex Elder tre.addr = cpu_to_le64(addr); 5749dd441e4SAlex Elder tre.len_opcode = gsi_tre_len_opcode(opcode, len); 5759dd441e4SAlex Elder tre.reserved = 0; 5769dd441e4SAlex Elder tre.flags = gsi_tre_flags(last_tre, bei, opcode); 5779dd441e4SAlex Elder 5789dd441e4SAlex Elder /* ARM64 can write 16 bytes as a unit with a single instruction. 5799dd441e4SAlex Elder * Doing the assignment this way is an attempt to make that happen. 5809dd441e4SAlex Elder */ 5819dd441e4SAlex Elder *dest_tre = tre; 5829dd441e4SAlex Elder } 5839dd441e4SAlex Elder 5849dd441e4SAlex Elder /** 5859dd441e4SAlex Elder * __gsi_trans_commit() - Common GSI transaction commit code 5869dd441e4SAlex Elder * @trans: Transaction to commit 5879dd441e4SAlex Elder * @ring_db: Whether to tell the hardware about these queued transfers 5889dd441e4SAlex Elder * 5899dd441e4SAlex Elder * Formats channel ring TRE entries based on the content of the scatterlist. 5909dd441e4SAlex Elder * Maps a transaction pointer to the last ring entry used for the transaction, 5919dd441e4SAlex Elder * so it can be recovered when it completes. Moves the transaction to the 5929dd441e4SAlex Elder * pending list. Finally, updates the channel ring pointer and optionally 5939dd441e4SAlex Elder * rings the doorbell. 5949dd441e4SAlex Elder */ 5959dd441e4SAlex Elder static void __gsi_trans_commit(struct gsi_trans *trans, bool ring_db) 5969dd441e4SAlex Elder { 5979dd441e4SAlex Elder struct gsi_channel *channel = &trans->gsi->channel[trans->channel_id]; 5982295947bSAlex Elder struct gsi_ring *tre_ring = &channel->tre_ring; 5999dd441e4SAlex Elder enum ipa_cmd_opcode opcode = IPA_CMD_NONE; 6009dd441e4SAlex Elder bool bei = channel->toward_ipa; 6019dd441e4SAlex Elder struct gsi_tre *dest_tre; 6029dd441e4SAlex Elder struct scatterlist *sg; 6039dd441e4SAlex Elder u32 byte_count = 0; 6048797972aSAlex Elder u8 *cmd_opcode; 6059dd441e4SAlex Elder u32 avail; 6069dd441e4SAlex Elder u32 i; 6079dd441e4SAlex Elder 6083eeabea6SAlex Elder WARN_ON(!trans->used_count); 6099dd441e4SAlex Elder 6109dd441e4SAlex Elder /* Consume the entries. If we cross the end of the ring while 6119dd441e4SAlex Elder * filling them we'll switch to the beginning to finish. 6129dd441e4SAlex Elder * If there is no info array we're doing a simple data 6139dd441e4SAlex Elder * transfer request, whose opcode is IPA_CMD_NONE. 6149dd441e4SAlex Elder */ 6158797972aSAlex Elder cmd_opcode = channel->command ? &trans->cmd_opcode[0] : NULL; 6162295947bSAlex Elder avail = tre_ring->count - tre_ring->index % tre_ring->count; 6172295947bSAlex Elder dest_tre = gsi_ring_virt(tre_ring, tre_ring->index); 6183eeabea6SAlex Elder for_each_sg(trans->sgl, sg, trans->used_count, i) { 6193eeabea6SAlex Elder bool last_tre = i == trans->used_count - 1; 6209dd441e4SAlex Elder dma_addr_t addr = sg_dma_address(sg); 6219dd441e4SAlex Elder u32 len = sg_dma_len(sg); 6229dd441e4SAlex Elder 6239dd441e4SAlex Elder byte_count += len; 6249dd441e4SAlex Elder if (!avail--) 6252295947bSAlex Elder dest_tre = gsi_ring_virt(tre_ring, 0); 6268797972aSAlex Elder if (cmd_opcode) 6278797972aSAlex Elder opcode = *cmd_opcode++; 6289dd441e4SAlex Elder 6299dd441e4SAlex Elder gsi_trans_tre_fill(dest_tre, addr, len, last_tre, bei, opcode); 6309dd441e4SAlex Elder dest_tre++; 6319dd441e4SAlex Elder } 6328eec7831SAlex Elder /* Associate the TRE with the transaction */ 6338eec7831SAlex Elder gsi_trans_map(trans, tre_ring->index); 6348eec7831SAlex Elder 6353eeabea6SAlex Elder tre_ring->index += trans->used_count; 6369dd441e4SAlex Elder 6379dd441e4SAlex Elder trans->len = byte_count; 6384e0f28e9SAlex Elder if (channel->toward_ipa) 6394e0f28e9SAlex Elder gsi_trans_tx_committed(trans); 6409dd441e4SAlex Elder 641b63f507cSAlex Elder gsi_trans_move_committed(trans); 6429dd441e4SAlex Elder 6439dd441e4SAlex Elder /* Ring doorbell if requested, or if all TREs are allocated */ 6449dd441e4SAlex Elder if (ring_db || !atomic_read(&channel->trans_info.tre_avail)) { 6459dd441e4SAlex Elder /* Report what we're handing off to hardware for TX channels */ 6469dd441e4SAlex Elder if (channel->toward_ipa) 647bcec9ecbSAlex Elder gsi_trans_tx_queued(trans); 648b63f507cSAlex Elder gsi_trans_move_pending(trans); 6499dd441e4SAlex Elder gsi_channel_doorbell(channel); 6509dd441e4SAlex Elder } 6519dd441e4SAlex Elder } 6529dd441e4SAlex Elder 6539dd441e4SAlex Elder /* Commit a GSI transaction */ 6549dd441e4SAlex Elder void gsi_trans_commit(struct gsi_trans *trans, bool ring_db) 6559dd441e4SAlex Elder { 6563eeabea6SAlex Elder if (trans->used_count) 6579dd441e4SAlex Elder __gsi_trans_commit(trans, ring_db); 6589dd441e4SAlex Elder else 6599dd441e4SAlex Elder gsi_trans_free(trans); 6609dd441e4SAlex Elder } 6619dd441e4SAlex Elder 6629dd441e4SAlex Elder /* Commit a GSI transaction and wait for it to complete */ 6639dd441e4SAlex Elder void gsi_trans_commit_wait(struct gsi_trans *trans) 6649dd441e4SAlex Elder { 6653eeabea6SAlex Elder if (!trans->used_count) 6669dd441e4SAlex Elder goto out_trans_free; 6679dd441e4SAlex Elder 6689dd441e4SAlex Elder refcount_inc(&trans->refcount); 6699dd441e4SAlex Elder 6709dd441e4SAlex Elder __gsi_trans_commit(trans, true); 6719dd441e4SAlex Elder 6729dd441e4SAlex Elder wait_for_completion(&trans->completion); 6739dd441e4SAlex Elder 6749dd441e4SAlex Elder out_trans_free: 6759dd441e4SAlex Elder gsi_trans_free(trans); 6769dd441e4SAlex Elder } 6779dd441e4SAlex Elder 6789dd441e4SAlex Elder /* Process the completion of a transaction; called while polling */ 6799dd441e4SAlex Elder void gsi_trans_complete(struct gsi_trans *trans) 6809dd441e4SAlex Elder { 6819dd441e4SAlex Elder /* If the entire SGL was mapped when added, unmap it now */ 6829dd441e4SAlex Elder if (trans->direction != DMA_NONE) 6833eeabea6SAlex Elder dma_unmap_sg(trans->gsi->dev, trans->sgl, trans->used_count, 6849dd441e4SAlex Elder trans->direction); 6859dd441e4SAlex Elder 6869dd441e4SAlex Elder ipa_gsi_trans_complete(trans); 6879dd441e4SAlex Elder 6889dd441e4SAlex Elder complete(&trans->completion); 6899dd441e4SAlex Elder 6909dd441e4SAlex Elder gsi_trans_free(trans); 6919dd441e4SAlex Elder } 6929dd441e4SAlex Elder 6939dd441e4SAlex Elder /* Cancel a channel's pending transactions */ 6949dd441e4SAlex Elder void gsi_channel_trans_cancel_pending(struct gsi_channel *channel) 6959dd441e4SAlex Elder { 6969dd441e4SAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info; 697*0c126ec3SAlex Elder u16 trans_id = trans_info->pending_id; 6989dd441e4SAlex Elder 6999dd441e4SAlex Elder /* channel->gsi->mutex is held by caller */ 7009dd441e4SAlex Elder spin_lock_bh(&trans_info->spinlock); 7019dd441e4SAlex Elder 7029dd441e4SAlex Elder list_splice_tail_init(&trans_info->pending, &trans_info->complete); 7039dd441e4SAlex Elder 7049dd441e4SAlex Elder spin_unlock_bh(&trans_info->spinlock); 7059dd441e4SAlex Elder 706*0c126ec3SAlex Elder /* If there are no pending transactions, we're done */ 707*0c126ec3SAlex Elder if (trans_id == trans_info->committed_id) 708*0c126ec3SAlex Elder return; 7098672bab7SAlex Elder 710*0c126ec3SAlex Elder /* Mark all pending transactions cancelled */ 711*0c126ec3SAlex Elder do { 712*0c126ec3SAlex Elder struct gsi_trans *trans; 713*0c126ec3SAlex Elder 714*0c126ec3SAlex Elder trans = &trans_info->trans[trans_id % channel->tre_count]; 715*0c126ec3SAlex Elder trans->cancelled = true; 716*0c126ec3SAlex Elder } while (++trans_id != trans_info->committed_id); 717*0c126ec3SAlex Elder 718*0c126ec3SAlex Elder /* All pending transactions are now completed */ 7198672bab7SAlex Elder trans_info->pending_id = trans_info->committed_id; 7208672bab7SAlex Elder 7219dd441e4SAlex Elder /* Schedule NAPI polling to complete the cancelled transactions */ 7229dd441e4SAlex Elder napi_schedule(&channel->napi); 7239dd441e4SAlex Elder } 7249dd441e4SAlex Elder 7259dd441e4SAlex Elder /* Issue a command to read a single byte from a channel */ 7269dd441e4SAlex Elder int gsi_trans_read_byte(struct gsi *gsi, u32 channel_id, dma_addr_t addr) 7279dd441e4SAlex Elder { 7289dd441e4SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 7292295947bSAlex Elder struct gsi_ring *tre_ring = &channel->tre_ring; 7309dd441e4SAlex Elder struct gsi_trans_info *trans_info; 7319dd441e4SAlex Elder struct gsi_tre *dest_tre; 7329dd441e4SAlex Elder 7339dd441e4SAlex Elder trans_info = &channel->trans_info; 7349dd441e4SAlex Elder 7359dd441e4SAlex Elder /* First reserve the TRE, if possible */ 7369dd441e4SAlex Elder if (!gsi_trans_tre_reserve(trans_info, 1)) 7379dd441e4SAlex Elder return -EBUSY; 7389dd441e4SAlex Elder 7397c0d97e4SJiang Jian /* Now fill the reserved TRE and tell the hardware */ 7409dd441e4SAlex Elder 7412295947bSAlex Elder dest_tre = gsi_ring_virt(tre_ring, tre_ring->index); 7429dd441e4SAlex Elder gsi_trans_tre_fill(dest_tre, addr, 1, true, false, IPA_CMD_NONE); 7439dd441e4SAlex Elder 7442295947bSAlex Elder tre_ring->index++; 7459dd441e4SAlex Elder gsi_channel_doorbell(channel); 7469dd441e4SAlex Elder 7479dd441e4SAlex Elder return 0; 7489dd441e4SAlex Elder } 7499dd441e4SAlex Elder 7509dd441e4SAlex Elder /* Mark a gsi_trans_read_byte() request done */ 7519dd441e4SAlex Elder void gsi_trans_read_byte_done(struct gsi *gsi, u32 channel_id) 7529dd441e4SAlex Elder { 7539dd441e4SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 7549dd441e4SAlex Elder 7559dd441e4SAlex Elder gsi_trans_tre_release(&channel->trans_info, 1); 7569dd441e4SAlex Elder } 7579dd441e4SAlex Elder 7589dd441e4SAlex Elder /* Initialize a channel's GSI transaction info */ 7599dd441e4SAlex Elder int gsi_channel_trans_init(struct gsi *gsi, u32 channel_id) 7609dd441e4SAlex Elder { 7619dd441e4SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 76249200658SAlex Elder u32 tre_count = channel->tre_count; 7639dd441e4SAlex Elder struct gsi_trans_info *trans_info; 7649dd441e4SAlex Elder u32 tre_max; 7659dd441e4SAlex Elder int ret; 7669dd441e4SAlex Elder 7679dd441e4SAlex Elder /* Ensure the size of a channel element is what's expected */ 7689dd441e4SAlex Elder BUILD_BUG_ON(sizeof(struct gsi_tre) != GSI_RING_ELEMENT_SIZE); 7699dd441e4SAlex Elder 7709dd441e4SAlex Elder trans_info = &channel->trans_info; 7719dd441e4SAlex Elder 77249200658SAlex Elder /* The tre_avail field is what ultimately limits the number of 77349200658SAlex Elder * outstanding transactions and their resources. A transaction 77449200658SAlex Elder * allocation succeeds only if the TREs available are sufficient 77549200658SAlex Elder * for what the transaction might need. 7769dd441e4SAlex Elder */ 7779dd441e4SAlex Elder tre_max = gsi_channel_tre_max(channel->gsi, channel_id); 77849200658SAlex Elder atomic_set(&trans_info->tre_avail, tre_max); 7799dd441e4SAlex Elder 78049200658SAlex Elder /* We can't use more TREs than the number available in the ring. 78149200658SAlex Elder * This limits the number of transactions that can be outstanding. 78249200658SAlex Elder * Worst case is one TRE per transaction (but we actually limit 78349200658SAlex Elder * it to something a little less than that). By allocating a 78449200658SAlex Elder * power-of-two number of transactions we can use an index 78549200658SAlex Elder * modulo that number to determine the next one that's free. 78649200658SAlex Elder * Transactions are allocated one at a time. 78749200658SAlex Elder */ 78812382d11SAlex Elder trans_info->trans = kcalloc(tre_count, sizeof(*trans_info->trans), 78912382d11SAlex Elder GFP_KERNEL); 79012382d11SAlex Elder if (!trans_info->trans) 79149200658SAlex Elder return -ENOMEM; 79241e2a2c0SAlex Elder trans_info->free_id = 0; /* all modulo channel->tre_count */ 79341e2a2c0SAlex Elder trans_info->allocated_id = 0; 794fc95d958SAlex Elder trans_info->committed_id = 0; 795eeff7c14SAlex Elder trans_info->pending_id = 0; 796949cd0b5SAlex Elder trans_info->completed_id = 0; 797fd3bd039SAlex Elder trans_info->polled_id = 0; 79849200658SAlex Elder 79949200658SAlex Elder /* A completion event contains a pointer to the TRE that caused 80049200658SAlex Elder * the event (which will be the last one used by the transaction). 80149200658SAlex Elder * Each entry in this map records the transaction associated 80249200658SAlex Elder * with a corresponding completed TRE. 80349200658SAlex Elder */ 80449200658SAlex Elder trans_info->map = kcalloc(tre_count, sizeof(*trans_info->map), 80549200658SAlex Elder GFP_KERNEL); 80649200658SAlex Elder if (!trans_info->map) { 80749200658SAlex Elder ret = -ENOMEM; 80849200658SAlex Elder goto err_trans_free; 80949200658SAlex Elder } 8109dd441e4SAlex Elder 8119dd441e4SAlex Elder /* A transaction uses a scatterlist array to represent the data 8129dd441e4SAlex Elder * transfers implemented by the transaction. Each scatterlist 8139dd441e4SAlex Elder * element is used to fill a single TRE when the transaction is 8149dd441e4SAlex Elder * committed. So we need as many scatterlist elements as the 8159dd441e4SAlex Elder * maximum number of TREs that can be outstanding. 8169dd441e4SAlex Elder */ 8179dd441e4SAlex Elder ret = gsi_trans_pool_init(&trans_info->sg_pool, 8189dd441e4SAlex Elder sizeof(struct scatterlist), 81988e03057SAlex Elder tre_max, channel->trans_tre_max); 8209dd441e4SAlex Elder if (ret) 82149200658SAlex Elder goto err_map_free; 8229dd441e4SAlex Elder 8239dd441e4SAlex Elder spin_lock_init(&trans_info->spinlock); 8249dd441e4SAlex Elder INIT_LIST_HEAD(&trans_info->alloc); 825b63f507cSAlex Elder INIT_LIST_HEAD(&trans_info->committed); 8269dd441e4SAlex Elder INIT_LIST_HEAD(&trans_info->pending); 8279dd441e4SAlex Elder INIT_LIST_HEAD(&trans_info->complete); 8289dd441e4SAlex Elder INIT_LIST_HEAD(&trans_info->polled); 8299dd441e4SAlex Elder 8309dd441e4SAlex Elder return 0; 8319dd441e4SAlex Elder 83249200658SAlex Elder err_map_free: 8339dd441e4SAlex Elder kfree(trans_info->map); 83449200658SAlex Elder err_trans_free: 83512382d11SAlex Elder kfree(trans_info->trans); 8369dd441e4SAlex Elder 8379dd441e4SAlex Elder dev_err(gsi->dev, "error %d initializing channel %u transactions\n", 8389dd441e4SAlex Elder ret, channel_id); 8399dd441e4SAlex Elder 8409dd441e4SAlex Elder return ret; 8419dd441e4SAlex Elder } 8429dd441e4SAlex Elder 8439dd441e4SAlex Elder /* Inverse of gsi_channel_trans_init() */ 8449dd441e4SAlex Elder void gsi_channel_trans_exit(struct gsi_channel *channel) 8459dd441e4SAlex Elder { 8469dd441e4SAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info; 8479dd441e4SAlex Elder 8489dd441e4SAlex Elder gsi_trans_pool_exit(&trans_info->sg_pool); 84912382d11SAlex Elder kfree(trans_info->trans); 8509dd441e4SAlex Elder kfree(trans_info->map); 8519dd441e4SAlex Elder } 852