1650d1603SAlex Elder // SPDX-License-Identifier: GPL-2.0 2650d1603SAlex Elder 3650d1603SAlex Elder /* Copyright (c) 2015-2018, The Linux Foundation. All rights reserved. 4650d1603SAlex Elder * Copyright (C) 2018-2020 Linaro Ltd. 5650d1603SAlex Elder */ 6650d1603SAlex Elder 7650d1603SAlex Elder #include <linux/types.h> 8650d1603SAlex Elder #include <linux/bits.h> 9650d1603SAlex Elder #include <linux/bitfield.h> 10650d1603SAlex Elder #include <linux/mutex.h> 11650d1603SAlex Elder #include <linux/completion.h> 12650d1603SAlex Elder #include <linux/io.h> 13650d1603SAlex Elder #include <linux/bug.h> 14650d1603SAlex Elder #include <linux/interrupt.h> 15650d1603SAlex Elder #include <linux/platform_device.h> 16650d1603SAlex Elder #include <linux/netdevice.h> 17650d1603SAlex Elder 18650d1603SAlex Elder #include "gsi.h" 19650d1603SAlex Elder #include "gsi_reg.h" 20650d1603SAlex Elder #include "gsi_private.h" 21650d1603SAlex Elder #include "gsi_trans.h" 22650d1603SAlex Elder #include "ipa_gsi.h" 23650d1603SAlex Elder #include "ipa_data.h" 241d0c09deSAlex Elder #include "ipa_version.h" 25650d1603SAlex Elder 26650d1603SAlex Elder /** 27650d1603SAlex Elder * DOC: The IPA Generic Software Interface 28650d1603SAlex Elder * 29650d1603SAlex Elder * The generic software interface (GSI) is an integral component of the IPA, 30650d1603SAlex Elder * providing a well-defined communication layer between the AP subsystem 31650d1603SAlex Elder * and the IPA core. The modem uses the GSI layer as well. 32650d1603SAlex Elder * 33650d1603SAlex Elder * -------- --------- 34650d1603SAlex Elder * | | | | 35650d1603SAlex Elder * | AP +<---. .----+ Modem | 36650d1603SAlex Elder * | +--. | | .->+ | 37650d1603SAlex Elder * | | | | | | | | 38650d1603SAlex Elder * -------- | | | | --------- 39650d1603SAlex Elder * v | v | 40650d1603SAlex Elder * --+-+---+-+-- 41650d1603SAlex Elder * | GSI | 42650d1603SAlex Elder * |-----------| 43650d1603SAlex Elder * | | 44650d1603SAlex Elder * | IPA | 45650d1603SAlex Elder * | | 46650d1603SAlex Elder * ------------- 47650d1603SAlex Elder * 48650d1603SAlex Elder * In the above diagram, the AP and Modem represent "execution environments" 49650d1603SAlex Elder * (EEs), which are independent operating environments that use the IPA for 50650d1603SAlex Elder * data transfer. 51650d1603SAlex Elder * 52650d1603SAlex Elder * Each EE uses a set of unidirectional GSI "channels," which allow transfer 53650d1603SAlex Elder * of data to or from the IPA. A channel is implemented as a ring buffer, 54650d1603SAlex Elder * with a DRAM-resident array of "transfer elements" (TREs) available to 55650d1603SAlex Elder * describe transfers to or from other EEs through the IPA. A transfer 56650d1603SAlex Elder * element can also contain an immediate command, requesting the IPA perform 57650d1603SAlex Elder * actions other than data transfer. 58650d1603SAlex Elder * 59650d1603SAlex Elder * Each TRE refers to a block of data--also located DRAM. After writing one 60650d1603SAlex Elder * or more TREs to a channel, the writer (either the IPA or an EE) writes a 61650d1603SAlex Elder * doorbell register to inform the receiving side how many elements have 62650d1603SAlex Elder * been written. 63650d1603SAlex Elder * 64650d1603SAlex Elder * Each channel has a GSI "event ring" associated with it. An event ring 65650d1603SAlex Elder * is implemented very much like a channel ring, but is always directed from 66650d1603SAlex Elder * the IPA to an EE. The IPA notifies an EE (such as the AP) about channel 67650d1603SAlex Elder * events by adding an entry to the event ring associated with the channel. 68650d1603SAlex Elder * The GSI then writes its doorbell for the event ring, causing the target 69650d1603SAlex Elder * EE to be interrupted. Each entry in an event ring contains a pointer 70650d1603SAlex Elder * to the channel TRE whose completion the event represents. 71650d1603SAlex Elder * 72650d1603SAlex Elder * Each TRE in a channel ring has a set of flags. One flag indicates whether 73650d1603SAlex Elder * the completion of the transfer operation generates an entry (and possibly 74650d1603SAlex Elder * an interrupt) in the channel's event ring. Other flags allow transfer 75650d1603SAlex Elder * elements to be chained together, forming a single logical transaction. 76650d1603SAlex Elder * TRE flags are used to control whether and when interrupts are generated 77650d1603SAlex Elder * to signal completion of channel transfers. 78650d1603SAlex Elder * 79650d1603SAlex Elder * Elements in channel and event rings are completed (or consumed) strictly 80650d1603SAlex Elder * in order. Completion of one entry implies the completion of all preceding 81650d1603SAlex Elder * entries. A single completion interrupt can therefore communicate the 82650d1603SAlex Elder * completion of many transfers. 83650d1603SAlex Elder * 84650d1603SAlex Elder * Note that all GSI registers are little-endian, which is the assumed 85650d1603SAlex Elder * endianness of I/O space accesses. The accessor functions perform byte 86650d1603SAlex Elder * swapping if needed (i.e., for a big endian CPU). 87650d1603SAlex Elder */ 88650d1603SAlex Elder 89650d1603SAlex Elder /* Delay period for interrupt moderation (in 32KHz IPA internal timer ticks) */ 90650d1603SAlex Elder #define GSI_EVT_RING_INT_MODT (32 * 1) /* 1ms under 32KHz clock */ 91650d1603SAlex Elder 92650d1603SAlex Elder #define GSI_CMD_TIMEOUT 5 /* seconds */ 93650d1603SAlex Elder 94650d1603SAlex Elder #define GSI_CHANNEL_STOP_RX_RETRIES 10 95650d1603SAlex Elder 96650d1603SAlex Elder #define GSI_MHI_EVENT_ID_START 10 /* 1st reserved event id */ 97650d1603SAlex Elder #define GSI_MHI_EVENT_ID_END 16 /* Last reserved event id */ 98650d1603SAlex Elder 99650d1603SAlex Elder #define GSI_ISR_MAX_ITER 50 /* Detect interrupt storms */ 100650d1603SAlex Elder 101650d1603SAlex Elder /* An entry in an event ring */ 102650d1603SAlex Elder struct gsi_event { 103650d1603SAlex Elder __le64 xfer_ptr; 104650d1603SAlex Elder __le16 len; 105650d1603SAlex Elder u8 reserved1; 106650d1603SAlex Elder u8 code; 107650d1603SAlex Elder __le16 reserved2; 108650d1603SAlex Elder u8 type; 109650d1603SAlex Elder u8 chid; 110650d1603SAlex Elder }; 111650d1603SAlex Elder 112650d1603SAlex Elder /* Hardware values representing an event ring immediate command opcode */ 113650d1603SAlex Elder enum gsi_evt_cmd_opcode { 114650d1603SAlex Elder GSI_EVT_ALLOCATE = 0x0, 115650d1603SAlex Elder GSI_EVT_RESET = 0x9, 116650d1603SAlex Elder GSI_EVT_DE_ALLOC = 0xa, 117650d1603SAlex Elder }; 118650d1603SAlex Elder 119650d1603SAlex Elder /* Hardware values representing a generic immediate command opcode */ 120650d1603SAlex Elder enum gsi_generic_cmd_opcode { 121650d1603SAlex Elder GSI_GENERIC_HALT_CHANNEL = 0x1, 122650d1603SAlex Elder GSI_GENERIC_ALLOCATE_CHANNEL = 0x2, 123650d1603SAlex Elder }; 124650d1603SAlex Elder 125650d1603SAlex Elder /* Hardware values representing a channel immediate command opcode */ 126650d1603SAlex Elder enum gsi_ch_cmd_opcode { 127650d1603SAlex Elder GSI_CH_ALLOCATE = 0x0, 128650d1603SAlex Elder GSI_CH_START = 0x1, 129650d1603SAlex Elder GSI_CH_STOP = 0x2, 130650d1603SAlex Elder GSI_CH_RESET = 0x9, 131650d1603SAlex Elder GSI_CH_DE_ALLOC = 0xa, 132650d1603SAlex Elder }; 133650d1603SAlex Elder 134650d1603SAlex Elder /** gsi_channel_scratch_gpi - GPI protocol scratch register 135650d1603SAlex Elder * @max_outstanding_tre: 136650d1603SAlex Elder * Defines the maximum number of TREs allowed in a single transaction 137650d1603SAlex Elder * on a channel (in bytes). This determines the amount of prefetch 138650d1603SAlex Elder * performed by the hardware. We configure this to equal the size of 139650d1603SAlex Elder * the TLV FIFO for the channel. 140650d1603SAlex Elder * @outstanding_threshold: 141650d1603SAlex Elder * Defines the threshold (in bytes) determining when the sequencer 142650d1603SAlex Elder * should update the channel doorbell. We configure this to equal 143650d1603SAlex Elder * the size of two TREs. 144650d1603SAlex Elder */ 145650d1603SAlex Elder struct gsi_channel_scratch_gpi { 146650d1603SAlex Elder u64 reserved1; 147650d1603SAlex Elder u16 reserved2; 148650d1603SAlex Elder u16 max_outstanding_tre; 149650d1603SAlex Elder u16 reserved3; 150650d1603SAlex Elder u16 outstanding_threshold; 151650d1603SAlex Elder }; 152650d1603SAlex Elder 153650d1603SAlex Elder /** gsi_channel_scratch - channel scratch configuration area 154650d1603SAlex Elder * 155650d1603SAlex Elder * The exact interpretation of this register is protocol-specific. 156650d1603SAlex Elder * We only use GPI channels; see struct gsi_channel_scratch_gpi, above. 157650d1603SAlex Elder */ 158650d1603SAlex Elder union gsi_channel_scratch { 159650d1603SAlex Elder struct gsi_channel_scratch_gpi gpi; 160650d1603SAlex Elder struct { 161650d1603SAlex Elder u32 word1; 162650d1603SAlex Elder u32 word2; 163650d1603SAlex Elder u32 word3; 164650d1603SAlex Elder u32 word4; 165650d1603SAlex Elder } data; 166650d1603SAlex Elder }; 167650d1603SAlex Elder 168650d1603SAlex Elder /* Check things that can be validated at build time. */ 169650d1603SAlex Elder static void gsi_validate_build(void) 170650d1603SAlex Elder { 171650d1603SAlex Elder /* This is used as a divisor */ 172650d1603SAlex Elder BUILD_BUG_ON(!GSI_RING_ELEMENT_SIZE); 173650d1603SAlex Elder 174650d1603SAlex Elder /* Code assumes the size of channel and event ring element are 175650d1603SAlex Elder * the same (and fixed). Make sure the size of an event ring 176650d1603SAlex Elder * element is what's expected. 177650d1603SAlex Elder */ 178650d1603SAlex Elder BUILD_BUG_ON(sizeof(struct gsi_event) != GSI_RING_ELEMENT_SIZE); 179650d1603SAlex Elder 180650d1603SAlex Elder /* Hardware requires a 2^n ring size. We ensure the number of 181650d1603SAlex Elder * elements in an event ring is a power of 2 elsewhere; this 182650d1603SAlex Elder * ensure the elements themselves meet the requirement. 183650d1603SAlex Elder */ 184650d1603SAlex Elder BUILD_BUG_ON(!is_power_of_2(GSI_RING_ELEMENT_SIZE)); 185650d1603SAlex Elder 186650d1603SAlex Elder /* The channel element size must fit in this field */ 187650d1603SAlex Elder BUILD_BUG_ON(GSI_RING_ELEMENT_SIZE > field_max(ELEMENT_SIZE_FMASK)); 188650d1603SAlex Elder 189650d1603SAlex Elder /* The event ring element size must fit in this field */ 190650d1603SAlex Elder BUILD_BUG_ON(GSI_RING_ELEMENT_SIZE > field_max(EV_ELEMENT_SIZE_FMASK)); 191650d1603SAlex Elder } 192650d1603SAlex Elder 193650d1603SAlex Elder /* Return the channel id associated with a given channel */ 194650d1603SAlex Elder static u32 gsi_channel_id(struct gsi_channel *channel) 195650d1603SAlex Elder { 196650d1603SAlex Elder return channel - &channel->gsi->channel[0]; 197650d1603SAlex Elder } 198650d1603SAlex Elder 1993ca97ffdSAlex Elder /* Update the GSI IRQ type register with the cached value */ 2008194be79SAlex Elder static void gsi_irq_type_update(struct gsi *gsi, u32 val) 2013ca97ffdSAlex Elder { 2028194be79SAlex Elder gsi->type_enabled_bitmap = val; 2038194be79SAlex Elder iowrite32(val, gsi->virt + GSI_CNTXT_TYPE_IRQ_MSK_OFFSET); 2043ca97ffdSAlex Elder } 2053ca97ffdSAlex Elder 206b054d4f9SAlex Elder static void gsi_irq_type_enable(struct gsi *gsi, enum gsi_irq_type_id type_id) 207b054d4f9SAlex Elder { 2088194be79SAlex Elder gsi_irq_type_update(gsi, gsi->type_enabled_bitmap | BIT(type_id)); 209b054d4f9SAlex Elder } 210b054d4f9SAlex Elder 211b054d4f9SAlex Elder static void gsi_irq_type_disable(struct gsi *gsi, enum gsi_irq_type_id type_id) 212b054d4f9SAlex Elder { 2138194be79SAlex Elder gsi_irq_type_update(gsi, gsi->type_enabled_bitmap & ~BIT(type_id)); 214b054d4f9SAlex Elder } 215b054d4f9SAlex Elder 21697eb94c8SAlex Elder /* Turn off all GSI interrupts initially */ 21797eb94c8SAlex Elder static void gsi_irq_setup(struct gsi *gsi) 21897eb94c8SAlex Elder { 2198194be79SAlex Elder /* Disable all interrupt types */ 2208194be79SAlex Elder gsi_irq_type_update(gsi, 0); 221b054d4f9SAlex Elder 2228194be79SAlex Elder /* Clear all type-specific interrupt masks */ 223b054d4f9SAlex Elder iowrite32(0, gsi->virt + GSI_CNTXT_SRC_CH_IRQ_MSK_OFFSET); 224b4175f87SAlex Elder iowrite32(0, gsi->virt + GSI_CNTXT_SRC_EV_CH_IRQ_MSK_OFFSET); 225d6c9e3f5SAlex Elder iowrite32(0, gsi->virt + GSI_CNTXT_GLOB_IRQ_EN_OFFSET); 22606c86328SAlex Elder iowrite32(0, gsi->virt + GSI_CNTXT_SRC_IEOB_IRQ_MSK_OFFSET); 22746f748ccSAlex Elder iowrite32(0, gsi->virt + GSI_INTER_EE_SRC_CH_IRQ_OFFSET); 22846f748ccSAlex Elder iowrite32(0, gsi->virt + GSI_INTER_EE_SRC_EV_CH_IRQ_OFFSET); 229352f26a8SAlex Elder iowrite32(0, gsi->virt + GSI_CNTXT_GSI_IRQ_EN_OFFSET); 23097eb94c8SAlex Elder } 23197eb94c8SAlex Elder 23297eb94c8SAlex Elder /* Turn off all GSI interrupts when we're all done */ 23397eb94c8SAlex Elder static void gsi_irq_teardown(struct gsi *gsi) 23497eb94c8SAlex Elder { 2358194be79SAlex Elder /* Nothing to do */ 23697eb94c8SAlex Elder } 23797eb94c8SAlex Elder 238650d1603SAlex Elder static void gsi_irq_ieob_enable(struct gsi *gsi, u32 evt_ring_id) 239650d1603SAlex Elder { 24006c86328SAlex Elder bool enable_ieob = !gsi->ieob_enabled_bitmap; 241650d1603SAlex Elder u32 val; 242650d1603SAlex Elder 243a054539dSAlex Elder gsi->ieob_enabled_bitmap |= BIT(evt_ring_id); 244a054539dSAlex Elder val = gsi->ieob_enabled_bitmap; 245650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CNTXT_SRC_IEOB_IRQ_MSK_OFFSET); 24606c86328SAlex Elder 24706c86328SAlex Elder /* Enable the interrupt type if this is the first channel enabled */ 24806c86328SAlex Elder if (enable_ieob) 24906c86328SAlex Elder gsi_irq_type_enable(gsi, GSI_IEOB); 250650d1603SAlex Elder } 251650d1603SAlex Elder 252650d1603SAlex Elder static void gsi_irq_ieob_disable(struct gsi *gsi, u32 evt_ring_id) 253650d1603SAlex Elder { 254650d1603SAlex Elder u32 val; 255650d1603SAlex Elder 256a054539dSAlex Elder gsi->ieob_enabled_bitmap &= ~BIT(evt_ring_id); 25706c86328SAlex Elder 25806c86328SAlex Elder /* Disable the interrupt type if this was the last enabled channel */ 25906c86328SAlex Elder if (!gsi->ieob_enabled_bitmap) 26006c86328SAlex Elder gsi_irq_type_disable(gsi, GSI_IEOB); 26106c86328SAlex Elder 262a054539dSAlex Elder val = gsi->ieob_enabled_bitmap; 263650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CNTXT_SRC_IEOB_IRQ_MSK_OFFSET); 264650d1603SAlex Elder } 265650d1603SAlex Elder 266650d1603SAlex Elder /* Enable all GSI_interrupt types */ 267650d1603SAlex Elder static void gsi_irq_enable(struct gsi *gsi) 268650d1603SAlex Elder { 269650d1603SAlex Elder u32 val; 270650d1603SAlex Elder 271d6c9e3f5SAlex Elder /* Global interrupts include hardware error reports. Enable 272d6c9e3f5SAlex Elder * that so we can at least report the error should it occur. 273d6c9e3f5SAlex Elder */ 2746c6358ccSAlex Elder iowrite32(BIT(ERROR_INT), gsi->virt + GSI_CNTXT_GLOB_IRQ_EN_OFFSET); 2758194be79SAlex Elder gsi_irq_type_update(gsi, gsi->type_enabled_bitmap | BIT(GSI_GLOB_EE)); 276d6c9e3f5SAlex Elder 277352f26a8SAlex Elder /* General GSI interrupts are reported to all EEs; if they occur 278352f26a8SAlex Elder * they are unrecoverable (without reset). A breakpoint interrupt 279352f26a8SAlex Elder * also exists, but we don't support that. We want to be notified 280352f26a8SAlex Elder * of errors so we can report them, even if they can't be handled. 281352f26a8SAlex Elder */ 2826c6358ccSAlex Elder val = BIT(BUS_ERROR); 2836c6358ccSAlex Elder val |= BIT(CMD_FIFO_OVRFLOW); 2846c6358ccSAlex Elder val |= BIT(MCS_STACK_OVRFLOW); 285650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CNTXT_GSI_IRQ_EN_OFFSET); 2868194be79SAlex Elder gsi_irq_type_update(gsi, gsi->type_enabled_bitmap | BIT(GSI_GENERAL)); 287650d1603SAlex Elder } 288650d1603SAlex Elder 2893ca97ffdSAlex Elder /* Disable all GSI interrupt types */ 290650d1603SAlex Elder static void gsi_irq_disable(struct gsi *gsi) 291650d1603SAlex Elder { 2928194be79SAlex Elder gsi_irq_type_update(gsi, 0); 29397eb94c8SAlex Elder 2948194be79SAlex Elder /* Clear the type-specific interrupt masks set by gsi_irq_enable() */ 295650d1603SAlex Elder iowrite32(0, gsi->virt + GSI_CNTXT_GSI_IRQ_EN_OFFSET); 296d6c9e3f5SAlex Elder iowrite32(0, gsi->virt + GSI_CNTXT_GLOB_IRQ_EN_OFFSET); 297650d1603SAlex Elder } 298650d1603SAlex Elder 299650d1603SAlex Elder /* Return the virtual address associated with a ring index */ 300650d1603SAlex Elder void *gsi_ring_virt(struct gsi_ring *ring, u32 index) 301650d1603SAlex Elder { 302650d1603SAlex Elder /* Note: index *must* be used modulo the ring count here */ 303650d1603SAlex Elder return ring->virt + (index % ring->count) * GSI_RING_ELEMENT_SIZE; 304650d1603SAlex Elder } 305650d1603SAlex Elder 306650d1603SAlex Elder /* Return the 32-bit DMA address associated with a ring index */ 307650d1603SAlex Elder static u32 gsi_ring_addr(struct gsi_ring *ring, u32 index) 308650d1603SAlex Elder { 309650d1603SAlex Elder return (ring->addr & GENMASK(31, 0)) + index * GSI_RING_ELEMENT_SIZE; 310650d1603SAlex Elder } 311650d1603SAlex Elder 312650d1603SAlex Elder /* Return the ring index of a 32-bit ring offset */ 313650d1603SAlex Elder static u32 gsi_ring_index(struct gsi_ring *ring, u32 offset) 314650d1603SAlex Elder { 315650d1603SAlex Elder return (offset - gsi_ring_addr(ring, 0)) / GSI_RING_ELEMENT_SIZE; 316650d1603SAlex Elder } 317650d1603SAlex Elder 318650d1603SAlex Elder /* Issue a GSI command by writing a value to a register, then wait for 319650d1603SAlex Elder * completion to be signaled. Returns true if the command completes 320650d1603SAlex Elder * or false if it times out. 321650d1603SAlex Elder */ 322650d1603SAlex Elder static bool 323650d1603SAlex Elder gsi_command(struct gsi *gsi, u32 reg, u32 val, struct completion *completion) 324650d1603SAlex Elder { 325650d1603SAlex Elder reinit_completion(completion); 326650d1603SAlex Elder 327650d1603SAlex Elder iowrite32(val, gsi->virt + reg); 328650d1603SAlex Elder 329650d1603SAlex Elder return !!wait_for_completion_timeout(completion, GSI_CMD_TIMEOUT * HZ); 330650d1603SAlex Elder } 331650d1603SAlex Elder 332650d1603SAlex Elder /* Return the hardware's notion of the current state of an event ring */ 333650d1603SAlex Elder static enum gsi_evt_ring_state 334650d1603SAlex Elder gsi_evt_ring_state(struct gsi *gsi, u32 evt_ring_id) 335650d1603SAlex Elder { 336650d1603SAlex Elder u32 val; 337650d1603SAlex Elder 338650d1603SAlex Elder val = ioread32(gsi->virt + GSI_EV_CH_E_CNTXT_0_OFFSET(evt_ring_id)); 339650d1603SAlex Elder 340650d1603SAlex Elder return u32_get_bits(val, EV_CHSTATE_FMASK); 341650d1603SAlex Elder } 342650d1603SAlex Elder 343650d1603SAlex Elder /* Issue an event ring command and wait for it to complete */ 344650d1603SAlex Elder static int evt_ring_command(struct gsi *gsi, u32 evt_ring_id, 345650d1603SAlex Elder enum gsi_evt_cmd_opcode opcode) 346650d1603SAlex Elder { 347650d1603SAlex Elder struct gsi_evt_ring *evt_ring = &gsi->evt_ring[evt_ring_id]; 348650d1603SAlex Elder struct completion *completion = &evt_ring->completion; 3498463488aSAlex Elder struct device *dev = gsi->dev; 350b4175f87SAlex Elder bool success; 351650d1603SAlex Elder u32 val; 352650d1603SAlex Elder 353b4175f87SAlex Elder /* We only perform one event ring command at a time, and event 354b4175f87SAlex Elder * control interrupts should only occur when such a command 355b4175f87SAlex Elder * is issued here. Only permit *this* event ring to trigger 356b4175f87SAlex Elder * an interrupt, and only enable the event control IRQ type 357b4175f87SAlex Elder * when we expect it to occur. 358b4175f87SAlex Elder */ 359b4175f87SAlex Elder val = BIT(evt_ring_id); 360b4175f87SAlex Elder iowrite32(val, gsi->virt + GSI_CNTXT_SRC_EV_CH_IRQ_MSK_OFFSET); 361b4175f87SAlex Elder gsi_irq_type_enable(gsi, GSI_EV_CTRL); 362b4175f87SAlex Elder 363650d1603SAlex Elder val = u32_encode_bits(evt_ring_id, EV_CHID_FMASK); 364650d1603SAlex Elder val |= u32_encode_bits(opcode, EV_OPCODE_FMASK); 365650d1603SAlex Elder 366b4175f87SAlex Elder success = gsi_command(gsi, GSI_EV_CH_CMD_OFFSET, val, completion); 367b4175f87SAlex Elder 368b4175f87SAlex Elder /* Disable the interrupt again */ 369b4175f87SAlex Elder gsi_irq_type_disable(gsi, GSI_EV_CTRL); 370b4175f87SAlex Elder iowrite32(0, gsi->virt + GSI_CNTXT_SRC_EV_CH_IRQ_MSK_OFFSET); 371b4175f87SAlex Elder 372b4175f87SAlex Elder if (success) 373b4175f87SAlex Elder return 0; 374650d1603SAlex Elder 3758463488aSAlex Elder dev_err(dev, "GSI command %u for event ring %u timed out, state %u\n", 3768463488aSAlex Elder opcode, evt_ring_id, evt_ring->state); 377650d1603SAlex Elder 378650d1603SAlex Elder return -ETIMEDOUT; 379650d1603SAlex Elder } 380650d1603SAlex Elder 381650d1603SAlex Elder /* Allocate an event ring in NOT_ALLOCATED state */ 382650d1603SAlex Elder static int gsi_evt_ring_alloc_command(struct gsi *gsi, u32 evt_ring_id) 383650d1603SAlex Elder { 384650d1603SAlex Elder struct gsi_evt_ring *evt_ring = &gsi->evt_ring[evt_ring_id]; 385650d1603SAlex Elder int ret; 386650d1603SAlex Elder 387650d1603SAlex Elder /* Get initial event ring state */ 388650d1603SAlex Elder evt_ring->state = gsi_evt_ring_state(gsi, evt_ring_id); 389a442b3c7SAlex Elder if (evt_ring->state != GSI_EVT_RING_STATE_NOT_ALLOCATED) { 390a442b3c7SAlex Elder dev_err(gsi->dev, "bad event ring state %u before alloc\n", 391a442b3c7SAlex Elder evt_ring->state); 392650d1603SAlex Elder return -EINVAL; 393a442b3c7SAlex Elder } 394650d1603SAlex Elder 395650d1603SAlex Elder ret = evt_ring_command(gsi, evt_ring_id, GSI_EVT_ALLOCATE); 396650d1603SAlex Elder if (!ret && evt_ring->state != GSI_EVT_RING_STATE_ALLOCATED) { 397a442b3c7SAlex Elder dev_err(gsi->dev, "bad event ring state %u after alloc\n", 398650d1603SAlex Elder evt_ring->state); 399650d1603SAlex Elder ret = -EIO; 400650d1603SAlex Elder } 401650d1603SAlex Elder 402650d1603SAlex Elder return ret; 403650d1603SAlex Elder } 404650d1603SAlex Elder 405650d1603SAlex Elder /* Reset a GSI event ring in ALLOCATED or ERROR state. */ 406650d1603SAlex Elder static void gsi_evt_ring_reset_command(struct gsi *gsi, u32 evt_ring_id) 407650d1603SAlex Elder { 408650d1603SAlex Elder struct gsi_evt_ring *evt_ring = &gsi->evt_ring[evt_ring_id]; 409650d1603SAlex Elder enum gsi_evt_ring_state state = evt_ring->state; 410650d1603SAlex Elder int ret; 411650d1603SAlex Elder 412650d1603SAlex Elder if (state != GSI_EVT_RING_STATE_ALLOCATED && 413650d1603SAlex Elder state != GSI_EVT_RING_STATE_ERROR) { 414a442b3c7SAlex Elder dev_err(gsi->dev, "bad event ring state %u before reset\n", 415650d1603SAlex Elder evt_ring->state); 416650d1603SAlex Elder return; 417650d1603SAlex Elder } 418650d1603SAlex Elder 419650d1603SAlex Elder ret = evt_ring_command(gsi, evt_ring_id, GSI_EVT_RESET); 420650d1603SAlex Elder if (!ret && evt_ring->state != GSI_EVT_RING_STATE_ALLOCATED) 421a442b3c7SAlex Elder dev_err(gsi->dev, "bad event ring state %u after reset\n", 422650d1603SAlex Elder evt_ring->state); 423650d1603SAlex Elder } 424650d1603SAlex Elder 425650d1603SAlex Elder /* Issue a hardware de-allocation request for an allocated event ring */ 426650d1603SAlex Elder static void gsi_evt_ring_de_alloc_command(struct gsi *gsi, u32 evt_ring_id) 427650d1603SAlex Elder { 428650d1603SAlex Elder struct gsi_evt_ring *evt_ring = &gsi->evt_ring[evt_ring_id]; 429650d1603SAlex Elder int ret; 430650d1603SAlex Elder 431650d1603SAlex Elder if (evt_ring->state != GSI_EVT_RING_STATE_ALLOCATED) { 432a442b3c7SAlex Elder dev_err(gsi->dev, "bad event ring state %u before dealloc\n", 433650d1603SAlex Elder evt_ring->state); 434650d1603SAlex Elder return; 435650d1603SAlex Elder } 436650d1603SAlex Elder 437650d1603SAlex Elder ret = evt_ring_command(gsi, evt_ring_id, GSI_EVT_DE_ALLOC); 438650d1603SAlex Elder if (!ret && evt_ring->state != GSI_EVT_RING_STATE_NOT_ALLOCATED) 439a442b3c7SAlex Elder dev_err(gsi->dev, "bad event ring state %u after dealloc\n", 440650d1603SAlex Elder evt_ring->state); 441650d1603SAlex Elder } 442650d1603SAlex Elder 443a2003b30SAlex Elder /* Fetch the current state of a channel from hardware */ 444aba7924fSAlex Elder static enum gsi_channel_state gsi_channel_state(struct gsi_channel *channel) 445650d1603SAlex Elder { 446aba7924fSAlex Elder u32 channel_id = gsi_channel_id(channel); 447aba7924fSAlex Elder void *virt = channel->gsi->virt; 448650d1603SAlex Elder u32 val; 449650d1603SAlex Elder 450aba7924fSAlex Elder val = ioread32(virt + GSI_CH_C_CNTXT_0_OFFSET(channel_id)); 451650d1603SAlex Elder 452650d1603SAlex Elder return u32_get_bits(val, CHSTATE_FMASK); 453650d1603SAlex Elder } 454650d1603SAlex Elder 455650d1603SAlex Elder /* Issue a channel command and wait for it to complete */ 456650d1603SAlex Elder static int 457650d1603SAlex Elder gsi_channel_command(struct gsi_channel *channel, enum gsi_ch_cmd_opcode opcode) 458650d1603SAlex Elder { 459650d1603SAlex Elder struct completion *completion = &channel->completion; 460650d1603SAlex Elder u32 channel_id = gsi_channel_id(channel); 461a2003b30SAlex Elder struct gsi *gsi = channel->gsi; 4628463488aSAlex Elder struct device *dev = gsi->dev; 463b054d4f9SAlex Elder bool success; 464650d1603SAlex Elder u32 val; 465650d1603SAlex Elder 466b054d4f9SAlex Elder /* We only perform one channel command at a time, and channel 467b054d4f9SAlex Elder * control interrupts should only occur when such a command is 468b054d4f9SAlex Elder * issued here. So we only permit *this* channel to trigger 469b054d4f9SAlex Elder * an interrupt and only enable the channel control IRQ type 470b054d4f9SAlex Elder * when we expect it to occur. 471b054d4f9SAlex Elder */ 472b054d4f9SAlex Elder val = BIT(channel_id); 473b054d4f9SAlex Elder iowrite32(val, gsi->virt + GSI_CNTXT_SRC_CH_IRQ_MSK_OFFSET); 474b054d4f9SAlex Elder gsi_irq_type_enable(gsi, GSI_CH_CTRL); 475b054d4f9SAlex Elder 476650d1603SAlex Elder val = u32_encode_bits(channel_id, CH_CHID_FMASK); 477650d1603SAlex Elder val |= u32_encode_bits(opcode, CH_OPCODE_FMASK); 478b054d4f9SAlex Elder success = gsi_command(gsi, GSI_CH_CMD_OFFSET, val, completion); 479650d1603SAlex Elder 480b054d4f9SAlex Elder /* Disable the interrupt again */ 481b054d4f9SAlex Elder gsi_irq_type_disable(gsi, GSI_CH_CTRL); 482b054d4f9SAlex Elder iowrite32(0, gsi->virt + GSI_CNTXT_SRC_CH_IRQ_MSK_OFFSET); 483b054d4f9SAlex Elder 484b054d4f9SAlex Elder if (success) 485b054d4f9SAlex Elder return 0; 486650d1603SAlex Elder 4878463488aSAlex Elder dev_err(dev, "GSI command %u for channel %u timed out, state %u\n", 488a2003b30SAlex Elder opcode, channel_id, gsi_channel_state(channel)); 489650d1603SAlex Elder 490650d1603SAlex Elder return -ETIMEDOUT; 491650d1603SAlex Elder } 492650d1603SAlex Elder 493650d1603SAlex Elder /* Allocate GSI channel in NOT_ALLOCATED state */ 494650d1603SAlex Elder static int gsi_channel_alloc_command(struct gsi *gsi, u32 channel_id) 495650d1603SAlex Elder { 496650d1603SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 497a442b3c7SAlex Elder struct device *dev = gsi->dev; 498a2003b30SAlex Elder enum gsi_channel_state state; 499650d1603SAlex Elder int ret; 500650d1603SAlex Elder 501650d1603SAlex Elder /* Get initial channel state */ 502a2003b30SAlex Elder state = gsi_channel_state(channel); 503a442b3c7SAlex Elder if (state != GSI_CHANNEL_STATE_NOT_ALLOCATED) { 504a442b3c7SAlex Elder dev_err(dev, "bad channel state %u before alloc\n", state); 505650d1603SAlex Elder return -EINVAL; 506a442b3c7SAlex Elder } 507650d1603SAlex Elder 508650d1603SAlex Elder ret = gsi_channel_command(channel, GSI_CH_ALLOCATE); 509a2003b30SAlex Elder 510a2003b30SAlex Elder /* Channel state will normally have been updated */ 511a2003b30SAlex Elder state = gsi_channel_state(channel); 512a2003b30SAlex Elder if (!ret && state != GSI_CHANNEL_STATE_ALLOCATED) { 513a442b3c7SAlex Elder dev_err(dev, "bad channel state %u after alloc\n", state); 514650d1603SAlex Elder ret = -EIO; 515650d1603SAlex Elder } 516650d1603SAlex Elder 517650d1603SAlex Elder return ret; 518650d1603SAlex Elder } 519650d1603SAlex Elder 520650d1603SAlex Elder /* Start an ALLOCATED channel */ 521650d1603SAlex Elder static int gsi_channel_start_command(struct gsi_channel *channel) 522650d1603SAlex Elder { 523a442b3c7SAlex Elder struct device *dev = channel->gsi->dev; 524a2003b30SAlex Elder enum gsi_channel_state state; 525650d1603SAlex Elder int ret; 526650d1603SAlex Elder 527a2003b30SAlex Elder state = gsi_channel_state(channel); 528650d1603SAlex Elder if (state != GSI_CHANNEL_STATE_ALLOCATED && 529a442b3c7SAlex Elder state != GSI_CHANNEL_STATE_STOPPED) { 530a442b3c7SAlex Elder dev_err(dev, "bad channel state %u before start\n", state); 531650d1603SAlex Elder return -EINVAL; 532a442b3c7SAlex Elder } 533650d1603SAlex Elder 534650d1603SAlex Elder ret = gsi_channel_command(channel, GSI_CH_START); 535a2003b30SAlex Elder 536a2003b30SAlex Elder /* Channel state will normally have been updated */ 537a2003b30SAlex Elder state = gsi_channel_state(channel); 538a2003b30SAlex Elder if (!ret && state != GSI_CHANNEL_STATE_STARTED) { 539a442b3c7SAlex Elder dev_err(dev, "bad channel state %u after start\n", state); 540650d1603SAlex Elder ret = -EIO; 541650d1603SAlex Elder } 542650d1603SAlex Elder 543650d1603SAlex Elder return ret; 544650d1603SAlex Elder } 545650d1603SAlex Elder 546650d1603SAlex Elder /* Stop a GSI channel in STARTED state */ 547650d1603SAlex Elder static int gsi_channel_stop_command(struct gsi_channel *channel) 548650d1603SAlex Elder { 549a442b3c7SAlex Elder struct device *dev = channel->gsi->dev; 550a2003b30SAlex Elder enum gsi_channel_state state; 551650d1603SAlex Elder int ret; 552650d1603SAlex Elder 553a2003b30SAlex Elder state = gsi_channel_state(channel); 5545468cbcdSAlex Elder 5555468cbcdSAlex Elder /* Channel could have entered STOPPED state since last call 5565468cbcdSAlex Elder * if it timed out. If so, we're done. 5575468cbcdSAlex Elder */ 5585468cbcdSAlex Elder if (state == GSI_CHANNEL_STATE_STOPPED) 5595468cbcdSAlex Elder return 0; 5605468cbcdSAlex Elder 561650d1603SAlex Elder if (state != GSI_CHANNEL_STATE_STARTED && 562a442b3c7SAlex Elder state != GSI_CHANNEL_STATE_STOP_IN_PROC) { 563a442b3c7SAlex Elder dev_err(dev, "bad channel state %u before stop\n", state); 564650d1603SAlex Elder return -EINVAL; 565a442b3c7SAlex Elder } 566650d1603SAlex Elder 567650d1603SAlex Elder ret = gsi_channel_command(channel, GSI_CH_STOP); 568a2003b30SAlex Elder 569a2003b30SAlex Elder /* Channel state will normally have been updated */ 570a2003b30SAlex Elder state = gsi_channel_state(channel); 571a2003b30SAlex Elder if (ret || state == GSI_CHANNEL_STATE_STOPPED) 572650d1603SAlex Elder return ret; 573650d1603SAlex Elder 574650d1603SAlex Elder /* We may have to try again if stop is in progress */ 575a2003b30SAlex Elder if (state == GSI_CHANNEL_STATE_STOP_IN_PROC) 576650d1603SAlex Elder return -EAGAIN; 577650d1603SAlex Elder 578a442b3c7SAlex Elder dev_err(dev, "bad channel state %u after stop\n", state); 579650d1603SAlex Elder 580650d1603SAlex Elder return -EIO; 581650d1603SAlex Elder } 582650d1603SAlex Elder 583650d1603SAlex Elder /* Reset a GSI channel in ALLOCATED or ERROR state. */ 584650d1603SAlex Elder static void gsi_channel_reset_command(struct gsi_channel *channel) 585650d1603SAlex Elder { 586a442b3c7SAlex Elder struct device *dev = channel->gsi->dev; 587a2003b30SAlex Elder enum gsi_channel_state state; 588650d1603SAlex Elder int ret; 589650d1603SAlex Elder 590650d1603SAlex Elder msleep(1); /* A short delay is required before a RESET command */ 591650d1603SAlex Elder 592a2003b30SAlex Elder state = gsi_channel_state(channel); 593a2003b30SAlex Elder if (state != GSI_CHANNEL_STATE_STOPPED && 594a2003b30SAlex Elder state != GSI_CHANNEL_STATE_ERROR) { 595a442b3c7SAlex Elder dev_err(dev, "bad channel state %u before reset\n", state); 596650d1603SAlex Elder return; 597650d1603SAlex Elder } 598650d1603SAlex Elder 599650d1603SAlex Elder ret = gsi_channel_command(channel, GSI_CH_RESET); 600a2003b30SAlex Elder 601a2003b30SAlex Elder /* Channel state will normally have been updated */ 602a2003b30SAlex Elder state = gsi_channel_state(channel); 603a2003b30SAlex Elder if (!ret && state != GSI_CHANNEL_STATE_ALLOCATED) 604a442b3c7SAlex Elder dev_err(dev, "bad channel state %u after reset\n", state); 605650d1603SAlex Elder } 606650d1603SAlex Elder 607650d1603SAlex Elder /* Deallocate an ALLOCATED GSI channel */ 608650d1603SAlex Elder static void gsi_channel_de_alloc_command(struct gsi *gsi, u32 channel_id) 609650d1603SAlex Elder { 610650d1603SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 611a442b3c7SAlex Elder struct device *dev = gsi->dev; 612a2003b30SAlex Elder enum gsi_channel_state state; 613650d1603SAlex Elder int ret; 614650d1603SAlex Elder 615a2003b30SAlex Elder state = gsi_channel_state(channel); 616a2003b30SAlex Elder if (state != GSI_CHANNEL_STATE_ALLOCATED) { 617a442b3c7SAlex Elder dev_err(dev, "bad channel state %u before dealloc\n", state); 618650d1603SAlex Elder return; 619650d1603SAlex Elder } 620650d1603SAlex Elder 621650d1603SAlex Elder ret = gsi_channel_command(channel, GSI_CH_DE_ALLOC); 622a2003b30SAlex Elder 623a2003b30SAlex Elder /* Channel state will normally have been updated */ 624a2003b30SAlex Elder state = gsi_channel_state(channel); 625a2003b30SAlex Elder if (!ret && state != GSI_CHANNEL_STATE_NOT_ALLOCATED) 626a442b3c7SAlex Elder dev_err(dev, "bad channel state %u after dealloc\n", state); 627650d1603SAlex Elder } 628650d1603SAlex Elder 629650d1603SAlex Elder /* Ring an event ring doorbell, reporting the last entry processed by the AP. 630650d1603SAlex Elder * The index argument (modulo the ring count) is the first unfilled entry, so 631650d1603SAlex Elder * we supply one less than that with the doorbell. Update the event ring 632650d1603SAlex Elder * index field with the value provided. 633650d1603SAlex Elder */ 634650d1603SAlex Elder static void gsi_evt_ring_doorbell(struct gsi *gsi, u32 evt_ring_id, u32 index) 635650d1603SAlex Elder { 636650d1603SAlex Elder struct gsi_ring *ring = &gsi->evt_ring[evt_ring_id].ring; 637650d1603SAlex Elder u32 val; 638650d1603SAlex Elder 639650d1603SAlex Elder ring->index = index; /* Next unused entry */ 640650d1603SAlex Elder 641650d1603SAlex Elder /* Note: index *must* be used modulo the ring count here */ 642650d1603SAlex Elder val = gsi_ring_addr(ring, (index - 1) % ring->count); 643650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_EV_CH_E_DOORBELL_0_OFFSET(evt_ring_id)); 644650d1603SAlex Elder } 645650d1603SAlex Elder 646650d1603SAlex Elder /* Program an event ring for use */ 647650d1603SAlex Elder static void gsi_evt_ring_program(struct gsi *gsi, u32 evt_ring_id) 648650d1603SAlex Elder { 649650d1603SAlex Elder struct gsi_evt_ring *evt_ring = &gsi->evt_ring[evt_ring_id]; 650650d1603SAlex Elder size_t size = evt_ring->ring.count * GSI_RING_ELEMENT_SIZE; 651650d1603SAlex Elder u32 val; 652650d1603SAlex Elder 65346dda53eSAlex Elder /* We program all event rings as GPI type/protocol */ 65446dda53eSAlex Elder val = u32_encode_bits(GSI_CHANNEL_TYPE_GPI, EV_CHTYPE_FMASK); 655650d1603SAlex Elder val |= EV_INTYPE_FMASK; 656650d1603SAlex Elder val |= u32_encode_bits(GSI_RING_ELEMENT_SIZE, EV_ELEMENT_SIZE_FMASK); 657650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_EV_CH_E_CNTXT_0_OFFSET(evt_ring_id)); 658650d1603SAlex Elder 659650d1603SAlex Elder val = u32_encode_bits(size, EV_R_LENGTH_FMASK); 660650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_EV_CH_E_CNTXT_1_OFFSET(evt_ring_id)); 661650d1603SAlex Elder 662650d1603SAlex Elder /* The context 2 and 3 registers store the low-order and 663650d1603SAlex Elder * high-order 32 bits of the address of the event ring, 664650d1603SAlex Elder * respectively. 665650d1603SAlex Elder */ 666650d1603SAlex Elder val = evt_ring->ring.addr & GENMASK(31, 0); 667650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_EV_CH_E_CNTXT_2_OFFSET(evt_ring_id)); 668650d1603SAlex Elder 669650d1603SAlex Elder val = evt_ring->ring.addr >> 32; 670650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_EV_CH_E_CNTXT_3_OFFSET(evt_ring_id)); 671650d1603SAlex Elder 672650d1603SAlex Elder /* Enable interrupt moderation by setting the moderation delay */ 673650d1603SAlex Elder val = u32_encode_bits(GSI_EVT_RING_INT_MODT, MODT_FMASK); 674650d1603SAlex Elder val |= u32_encode_bits(1, MODC_FMASK); /* comes from channel */ 675650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_EV_CH_E_CNTXT_8_OFFSET(evt_ring_id)); 676650d1603SAlex Elder 677650d1603SAlex Elder /* No MSI write data, and MSI address high and low address is 0 */ 678650d1603SAlex Elder iowrite32(0, gsi->virt + GSI_EV_CH_E_CNTXT_9_OFFSET(evt_ring_id)); 679650d1603SAlex Elder iowrite32(0, gsi->virt + GSI_EV_CH_E_CNTXT_10_OFFSET(evt_ring_id)); 680650d1603SAlex Elder iowrite32(0, gsi->virt + GSI_EV_CH_E_CNTXT_11_OFFSET(evt_ring_id)); 681650d1603SAlex Elder 682650d1603SAlex Elder /* We don't need to get event read pointer updates */ 683650d1603SAlex Elder iowrite32(0, gsi->virt + GSI_EV_CH_E_CNTXT_12_OFFSET(evt_ring_id)); 684650d1603SAlex Elder iowrite32(0, gsi->virt + GSI_EV_CH_E_CNTXT_13_OFFSET(evt_ring_id)); 685650d1603SAlex Elder 686650d1603SAlex Elder /* Finally, tell the hardware we've completed event 0 (arbitrary) */ 687650d1603SAlex Elder gsi_evt_ring_doorbell(gsi, evt_ring_id, 0); 688650d1603SAlex Elder } 689650d1603SAlex Elder 690650d1603SAlex Elder /* Return the last (most recent) transaction completed on a channel. */ 691650d1603SAlex Elder static struct gsi_trans *gsi_channel_trans_last(struct gsi_channel *channel) 692650d1603SAlex Elder { 693650d1603SAlex Elder struct gsi_trans_info *trans_info = &channel->trans_info; 694650d1603SAlex Elder struct gsi_trans *trans; 695650d1603SAlex Elder 696650d1603SAlex Elder spin_lock_bh(&trans_info->spinlock); 697650d1603SAlex Elder 698650d1603SAlex Elder if (!list_empty(&trans_info->complete)) 699650d1603SAlex Elder trans = list_last_entry(&trans_info->complete, 700650d1603SAlex Elder struct gsi_trans, links); 701650d1603SAlex Elder else if (!list_empty(&trans_info->polled)) 702650d1603SAlex Elder trans = list_last_entry(&trans_info->polled, 703650d1603SAlex Elder struct gsi_trans, links); 704650d1603SAlex Elder else 705650d1603SAlex Elder trans = NULL; 706650d1603SAlex Elder 707650d1603SAlex Elder /* Caller will wait for this, so take a reference */ 708650d1603SAlex Elder if (trans) 709650d1603SAlex Elder refcount_inc(&trans->refcount); 710650d1603SAlex Elder 711650d1603SAlex Elder spin_unlock_bh(&trans_info->spinlock); 712650d1603SAlex Elder 713650d1603SAlex Elder return trans; 714650d1603SAlex Elder } 715650d1603SAlex Elder 716650d1603SAlex Elder /* Wait for transaction activity on a channel to complete */ 717650d1603SAlex Elder static void gsi_channel_trans_quiesce(struct gsi_channel *channel) 718650d1603SAlex Elder { 719650d1603SAlex Elder struct gsi_trans *trans; 720650d1603SAlex Elder 721650d1603SAlex Elder /* Get the last transaction, and wait for it to complete */ 722650d1603SAlex Elder trans = gsi_channel_trans_last(channel); 723650d1603SAlex Elder if (trans) { 724650d1603SAlex Elder wait_for_completion(&trans->completion); 725650d1603SAlex Elder gsi_trans_free(trans); 726650d1603SAlex Elder } 727650d1603SAlex Elder } 728650d1603SAlex Elder 729650d1603SAlex Elder /* Stop channel activity. Transactions may not be allocated until thawed. */ 730650d1603SAlex Elder static void gsi_channel_freeze(struct gsi_channel *channel) 731650d1603SAlex Elder { 732650d1603SAlex Elder gsi_channel_trans_quiesce(channel); 733650d1603SAlex Elder 734650d1603SAlex Elder napi_disable(&channel->napi); 735650d1603SAlex Elder 736650d1603SAlex Elder gsi_irq_ieob_disable(channel->gsi, channel->evt_ring_id); 737650d1603SAlex Elder } 738650d1603SAlex Elder 739650d1603SAlex Elder /* Allow transactions to be used on the channel again. */ 740650d1603SAlex Elder static void gsi_channel_thaw(struct gsi_channel *channel) 741650d1603SAlex Elder { 742650d1603SAlex Elder gsi_irq_ieob_enable(channel->gsi, channel->evt_ring_id); 743650d1603SAlex Elder 744650d1603SAlex Elder napi_enable(&channel->napi); 745650d1603SAlex Elder } 746650d1603SAlex Elder 747650d1603SAlex Elder /* Program a channel for use */ 748650d1603SAlex Elder static void gsi_channel_program(struct gsi_channel *channel, bool doorbell) 749650d1603SAlex Elder { 750650d1603SAlex Elder size_t size = channel->tre_ring.count * GSI_RING_ELEMENT_SIZE; 751650d1603SAlex Elder u32 channel_id = gsi_channel_id(channel); 752650d1603SAlex Elder union gsi_channel_scratch scr = { }; 753650d1603SAlex Elder struct gsi_channel_scratch_gpi *gpi; 754650d1603SAlex Elder struct gsi *gsi = channel->gsi; 755650d1603SAlex Elder u32 wrr_weight = 0; 756650d1603SAlex Elder u32 val; 757650d1603SAlex Elder 758650d1603SAlex Elder /* Arbitrarily pick TRE 0 as the first channel element to use */ 759650d1603SAlex Elder channel->tre_ring.index = 0; 760650d1603SAlex Elder 76146dda53eSAlex Elder /* We program all channels as GPI type/protocol */ 76246dda53eSAlex Elder val = u32_encode_bits(GSI_CHANNEL_TYPE_GPI, CHTYPE_PROTOCOL_FMASK); 763650d1603SAlex Elder if (channel->toward_ipa) 764650d1603SAlex Elder val |= CHTYPE_DIR_FMASK; 765650d1603SAlex Elder val |= u32_encode_bits(channel->evt_ring_id, ERINDEX_FMASK); 766650d1603SAlex Elder val |= u32_encode_bits(GSI_RING_ELEMENT_SIZE, ELEMENT_SIZE_FMASK); 767650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CH_C_CNTXT_0_OFFSET(channel_id)); 768650d1603SAlex Elder 769650d1603SAlex Elder val = u32_encode_bits(size, R_LENGTH_FMASK); 770650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CH_C_CNTXT_1_OFFSET(channel_id)); 771650d1603SAlex Elder 772650d1603SAlex Elder /* The context 2 and 3 registers store the low-order and 773650d1603SAlex Elder * high-order 32 bits of the address of the channel ring, 774650d1603SAlex Elder * respectively. 775650d1603SAlex Elder */ 776650d1603SAlex Elder val = channel->tre_ring.addr & GENMASK(31, 0); 777650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CH_C_CNTXT_2_OFFSET(channel_id)); 778650d1603SAlex Elder 779650d1603SAlex Elder val = channel->tre_ring.addr >> 32; 780650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CH_C_CNTXT_3_OFFSET(channel_id)); 781650d1603SAlex Elder 782650d1603SAlex Elder /* Command channel gets low weighted round-robin priority */ 783650d1603SAlex Elder if (channel->command) 784650d1603SAlex Elder wrr_weight = field_max(WRR_WEIGHT_FMASK); 785650d1603SAlex Elder val = u32_encode_bits(wrr_weight, WRR_WEIGHT_FMASK); 786650d1603SAlex Elder 787650d1603SAlex Elder /* Max prefetch is 1 segment (do not set MAX_PREFETCH_FMASK) */ 788650d1603SAlex Elder 789ce54993dSAlex Elder /* We enable the doorbell engine for IPA v3.5.1 */ 790ce54993dSAlex Elder if (gsi->version == IPA_VERSION_3_5_1 && doorbell) 791650d1603SAlex Elder val |= USE_DB_ENG_FMASK; 792650d1603SAlex Elder 79314dbf977SAlex Elder /* Starting with IPA v4.0 the command channel uses the escape buffer */ 79414dbf977SAlex Elder if (gsi->version != IPA_VERSION_3_5_1 && channel->command) 795650d1603SAlex Elder val |= USE_ESCAPE_BUF_ONLY_FMASK; 796650d1603SAlex Elder 797650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CH_C_QOS_OFFSET(channel_id)); 798650d1603SAlex Elder 799650d1603SAlex Elder /* Now update the scratch registers for GPI protocol */ 800650d1603SAlex Elder gpi = &scr.gpi; 801650d1603SAlex Elder gpi->max_outstanding_tre = gsi_channel_trans_tre_max(gsi, channel_id) * 802650d1603SAlex Elder GSI_RING_ELEMENT_SIZE; 803650d1603SAlex Elder gpi->outstanding_threshold = 2 * GSI_RING_ELEMENT_SIZE; 804650d1603SAlex Elder 805650d1603SAlex Elder val = scr.data.word1; 806650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CH_C_SCRATCH_0_OFFSET(channel_id)); 807650d1603SAlex Elder 808650d1603SAlex Elder val = scr.data.word2; 809650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CH_C_SCRATCH_1_OFFSET(channel_id)); 810650d1603SAlex Elder 811650d1603SAlex Elder val = scr.data.word3; 812650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CH_C_SCRATCH_2_OFFSET(channel_id)); 813650d1603SAlex Elder 814650d1603SAlex Elder /* We must preserve the upper 16 bits of the last scratch register. 815650d1603SAlex Elder * The next sequence assumes those bits remain unchanged between the 816650d1603SAlex Elder * read and the write. 817650d1603SAlex Elder */ 818650d1603SAlex Elder val = ioread32(gsi->virt + GSI_CH_C_SCRATCH_3_OFFSET(channel_id)); 819650d1603SAlex Elder val = (scr.data.word4 & GENMASK(31, 16)) | (val & GENMASK(15, 0)); 820650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CH_C_SCRATCH_3_OFFSET(channel_id)); 821650d1603SAlex Elder 822650d1603SAlex Elder /* All done! */ 823650d1603SAlex Elder } 824650d1603SAlex Elder 825650d1603SAlex Elder static void gsi_channel_deprogram(struct gsi_channel *channel) 826650d1603SAlex Elder { 827650d1603SAlex Elder /* Nothing to do */ 828650d1603SAlex Elder } 829650d1603SAlex Elder 830650d1603SAlex Elder /* Start an allocated GSI channel */ 831650d1603SAlex Elder int gsi_channel_start(struct gsi *gsi, u32 channel_id) 832650d1603SAlex Elder { 833650d1603SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 834650d1603SAlex Elder int ret; 835650d1603SAlex Elder 836650d1603SAlex Elder mutex_lock(&gsi->mutex); 837650d1603SAlex Elder 838650d1603SAlex Elder ret = gsi_channel_start_command(channel); 839650d1603SAlex Elder 840650d1603SAlex Elder mutex_unlock(&gsi->mutex); 841650d1603SAlex Elder 842650d1603SAlex Elder gsi_channel_thaw(channel); 843650d1603SAlex Elder 844650d1603SAlex Elder return ret; 845650d1603SAlex Elder } 846650d1603SAlex Elder 847650d1603SAlex Elder /* Stop a started channel */ 848650d1603SAlex Elder int gsi_channel_stop(struct gsi *gsi, u32 channel_id) 849650d1603SAlex Elder { 850650d1603SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 851650d1603SAlex Elder u32 retries; 852650d1603SAlex Elder int ret; 853650d1603SAlex Elder 854650d1603SAlex Elder gsi_channel_freeze(channel); 855650d1603SAlex Elder 856650d1603SAlex Elder /* RX channels might require a little time to enter STOPPED state */ 857650d1603SAlex Elder retries = channel->toward_ipa ? 0 : GSI_CHANNEL_STOP_RX_RETRIES; 858650d1603SAlex Elder 859650d1603SAlex Elder mutex_lock(&gsi->mutex); 860650d1603SAlex Elder 861650d1603SAlex Elder do { 862650d1603SAlex Elder ret = gsi_channel_stop_command(channel); 863650d1603SAlex Elder if (ret != -EAGAIN) 864650d1603SAlex Elder break; 865650d1603SAlex Elder msleep(1); 866650d1603SAlex Elder } while (retries--); 867650d1603SAlex Elder 868650d1603SAlex Elder mutex_unlock(&gsi->mutex); 869650d1603SAlex Elder 870650d1603SAlex Elder /* Thaw the channel if we need to retry (or on error) */ 871650d1603SAlex Elder if (ret) 872650d1603SAlex Elder gsi_channel_thaw(channel); 873650d1603SAlex Elder 874650d1603SAlex Elder return ret; 875650d1603SAlex Elder } 876650d1603SAlex Elder 877ce54993dSAlex Elder /* Reset and reconfigure a channel, (possibly) enabling the doorbell engine */ 878ce54993dSAlex Elder void gsi_channel_reset(struct gsi *gsi, u32 channel_id, bool doorbell) 879650d1603SAlex Elder { 880650d1603SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 881650d1603SAlex Elder 882650d1603SAlex Elder mutex_lock(&gsi->mutex); 883650d1603SAlex Elder 884650d1603SAlex Elder gsi_channel_reset_command(channel); 885a3f2405bSAlex Elder /* Due to a hardware quirk we may need to reset RX channels twice. */ 8869de4a4ccSAlex Elder if (gsi->version == IPA_VERSION_3_5_1 && !channel->toward_ipa) 887650d1603SAlex Elder gsi_channel_reset_command(channel); 888650d1603SAlex Elder 889ce54993dSAlex Elder gsi_channel_program(channel, doorbell); 890650d1603SAlex Elder gsi_channel_trans_cancel_pending(channel); 891650d1603SAlex Elder 892650d1603SAlex Elder mutex_unlock(&gsi->mutex); 893650d1603SAlex Elder } 894650d1603SAlex Elder 895650d1603SAlex Elder /* Stop a STARTED channel for suspend (using stop if requested) */ 896650d1603SAlex Elder int gsi_channel_suspend(struct gsi *gsi, u32 channel_id, bool stop) 897650d1603SAlex Elder { 898650d1603SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 899650d1603SAlex Elder 900650d1603SAlex Elder if (stop) 901650d1603SAlex Elder return gsi_channel_stop(gsi, channel_id); 902650d1603SAlex Elder 903650d1603SAlex Elder gsi_channel_freeze(channel); 904650d1603SAlex Elder 905650d1603SAlex Elder return 0; 906650d1603SAlex Elder } 907650d1603SAlex Elder 908650d1603SAlex Elder /* Resume a suspended channel (starting will be requested if STOPPED) */ 909650d1603SAlex Elder int gsi_channel_resume(struct gsi *gsi, u32 channel_id, bool start) 910650d1603SAlex Elder { 911650d1603SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 912650d1603SAlex Elder 913650d1603SAlex Elder if (start) 914650d1603SAlex Elder return gsi_channel_start(gsi, channel_id); 915650d1603SAlex Elder 916650d1603SAlex Elder gsi_channel_thaw(channel); 917650d1603SAlex Elder 918650d1603SAlex Elder return 0; 919650d1603SAlex Elder } 920650d1603SAlex Elder 921650d1603SAlex Elder /** 922650d1603SAlex Elder * gsi_channel_tx_queued() - Report queued TX transfers for a channel 923650d1603SAlex Elder * @channel: Channel for which to report 924650d1603SAlex Elder * 925650d1603SAlex Elder * Report to the network stack the number of bytes and transactions that 926650d1603SAlex Elder * have been queued to hardware since last call. This and the next function 927650d1603SAlex Elder * supply information used by the network stack for throttling. 928650d1603SAlex Elder * 929650d1603SAlex Elder * For each channel we track the number of transactions used and bytes of 930650d1603SAlex Elder * data those transactions represent. We also track what those values are 931650d1603SAlex Elder * each time this function is called. Subtracting the two tells us 932650d1603SAlex Elder * the number of bytes and transactions that have been added between 933650d1603SAlex Elder * successive calls. 934650d1603SAlex Elder * 935650d1603SAlex Elder * Calling this each time we ring the channel doorbell allows us to 936650d1603SAlex Elder * provide accurate information to the network stack about how much 937650d1603SAlex Elder * work we've given the hardware at any point in time. 938650d1603SAlex Elder */ 939650d1603SAlex Elder void gsi_channel_tx_queued(struct gsi_channel *channel) 940650d1603SAlex Elder { 941650d1603SAlex Elder u32 trans_count; 942650d1603SAlex Elder u32 byte_count; 943650d1603SAlex Elder 944650d1603SAlex Elder byte_count = channel->byte_count - channel->queued_byte_count; 945650d1603SAlex Elder trans_count = channel->trans_count - channel->queued_trans_count; 946650d1603SAlex Elder channel->queued_byte_count = channel->byte_count; 947650d1603SAlex Elder channel->queued_trans_count = channel->trans_count; 948650d1603SAlex Elder 949650d1603SAlex Elder ipa_gsi_channel_tx_queued(channel->gsi, gsi_channel_id(channel), 950650d1603SAlex Elder trans_count, byte_count); 951650d1603SAlex Elder } 952650d1603SAlex Elder 953650d1603SAlex Elder /** 954650d1603SAlex Elder * gsi_channel_tx_update() - Report completed TX transfers 955650d1603SAlex Elder * @channel: Channel that has completed transmitting packets 956650d1603SAlex Elder * @trans: Last transation known to be complete 957650d1603SAlex Elder * 958650d1603SAlex Elder * Compute the number of transactions and bytes that have been transferred 959650d1603SAlex Elder * over a TX channel since the given transaction was committed. Report this 960650d1603SAlex Elder * information to the network stack. 961650d1603SAlex Elder * 962650d1603SAlex Elder * At the time a transaction is committed, we record its channel's 963650d1603SAlex Elder * committed transaction and byte counts *in the transaction*. 964650d1603SAlex Elder * Completions are signaled by the hardware with an interrupt, and 965650d1603SAlex Elder * we can determine the latest completed transaction at that time. 966650d1603SAlex Elder * 967650d1603SAlex Elder * The difference between the byte/transaction count recorded in 968650d1603SAlex Elder * the transaction and the count last time we recorded a completion 969650d1603SAlex Elder * tells us exactly how much data has been transferred between 970650d1603SAlex Elder * completions. 971650d1603SAlex Elder * 972650d1603SAlex Elder * Calling this each time we learn of a newly-completed transaction 973650d1603SAlex Elder * allows us to provide accurate information to the network stack 974650d1603SAlex Elder * about how much work has been completed by the hardware at a given 975650d1603SAlex Elder * point in time. 976650d1603SAlex Elder */ 977650d1603SAlex Elder static void 978650d1603SAlex Elder gsi_channel_tx_update(struct gsi_channel *channel, struct gsi_trans *trans) 979650d1603SAlex Elder { 980650d1603SAlex Elder u64 byte_count = trans->byte_count + trans->len; 981650d1603SAlex Elder u64 trans_count = trans->trans_count + 1; 982650d1603SAlex Elder 983650d1603SAlex Elder byte_count -= channel->compl_byte_count; 984650d1603SAlex Elder channel->compl_byte_count += byte_count; 985650d1603SAlex Elder trans_count -= channel->compl_trans_count; 986650d1603SAlex Elder channel->compl_trans_count += trans_count; 987650d1603SAlex Elder 988650d1603SAlex Elder ipa_gsi_channel_tx_completed(channel->gsi, gsi_channel_id(channel), 989650d1603SAlex Elder trans_count, byte_count); 990650d1603SAlex Elder } 991650d1603SAlex Elder 992650d1603SAlex Elder /* Channel control interrupt handler */ 993650d1603SAlex Elder static void gsi_isr_chan_ctrl(struct gsi *gsi) 994650d1603SAlex Elder { 995650d1603SAlex Elder u32 channel_mask; 996650d1603SAlex Elder 997650d1603SAlex Elder channel_mask = ioread32(gsi->virt + GSI_CNTXT_SRC_CH_IRQ_OFFSET); 998650d1603SAlex Elder iowrite32(channel_mask, gsi->virt + GSI_CNTXT_SRC_CH_IRQ_CLR_OFFSET); 999650d1603SAlex Elder 1000650d1603SAlex Elder while (channel_mask) { 1001650d1603SAlex Elder u32 channel_id = __ffs(channel_mask); 1002650d1603SAlex Elder struct gsi_channel *channel; 1003650d1603SAlex Elder 1004650d1603SAlex Elder channel_mask ^= BIT(channel_id); 1005650d1603SAlex Elder 1006650d1603SAlex Elder channel = &gsi->channel[channel_id]; 1007650d1603SAlex Elder 1008650d1603SAlex Elder complete(&channel->completion); 1009650d1603SAlex Elder } 1010650d1603SAlex Elder } 1011650d1603SAlex Elder 1012650d1603SAlex Elder /* Event ring control interrupt handler */ 1013650d1603SAlex Elder static void gsi_isr_evt_ctrl(struct gsi *gsi) 1014650d1603SAlex Elder { 1015650d1603SAlex Elder u32 event_mask; 1016650d1603SAlex Elder 1017650d1603SAlex Elder event_mask = ioread32(gsi->virt + GSI_CNTXT_SRC_EV_CH_IRQ_OFFSET); 1018650d1603SAlex Elder iowrite32(event_mask, gsi->virt + GSI_CNTXT_SRC_EV_CH_IRQ_CLR_OFFSET); 1019650d1603SAlex Elder 1020650d1603SAlex Elder while (event_mask) { 1021650d1603SAlex Elder u32 evt_ring_id = __ffs(event_mask); 1022650d1603SAlex Elder struct gsi_evt_ring *evt_ring; 1023650d1603SAlex Elder 1024650d1603SAlex Elder event_mask ^= BIT(evt_ring_id); 1025650d1603SAlex Elder 1026650d1603SAlex Elder evt_ring = &gsi->evt_ring[evt_ring_id]; 1027650d1603SAlex Elder evt_ring->state = gsi_evt_ring_state(gsi, evt_ring_id); 1028650d1603SAlex Elder 1029650d1603SAlex Elder complete(&evt_ring->completion); 1030650d1603SAlex Elder } 1031650d1603SAlex Elder } 1032650d1603SAlex Elder 1033650d1603SAlex Elder /* Global channel error interrupt handler */ 1034650d1603SAlex Elder static void 1035650d1603SAlex Elder gsi_isr_glob_chan_err(struct gsi *gsi, u32 err_ee, u32 channel_id, u32 code) 1036650d1603SAlex Elder { 1037*7b0ac8f6SAlex Elder if (code == GSI_OUT_OF_RESOURCES) { 1038650d1603SAlex Elder dev_err(gsi->dev, "channel %u out of resources\n", channel_id); 1039650d1603SAlex Elder complete(&gsi->channel[channel_id].completion); 1040650d1603SAlex Elder return; 1041650d1603SAlex Elder } 1042650d1603SAlex Elder 1043650d1603SAlex Elder /* Report, but otherwise ignore all other error codes */ 1044650d1603SAlex Elder dev_err(gsi->dev, "channel %u global error ee 0x%08x code 0x%08x\n", 1045650d1603SAlex Elder channel_id, err_ee, code); 1046650d1603SAlex Elder } 1047650d1603SAlex Elder 1048650d1603SAlex Elder /* Global event error interrupt handler */ 1049650d1603SAlex Elder static void 1050650d1603SAlex Elder gsi_isr_glob_evt_err(struct gsi *gsi, u32 err_ee, u32 evt_ring_id, u32 code) 1051650d1603SAlex Elder { 1052*7b0ac8f6SAlex Elder if (code == GSI_OUT_OF_RESOURCES) { 1053650d1603SAlex Elder struct gsi_evt_ring *evt_ring = &gsi->evt_ring[evt_ring_id]; 1054650d1603SAlex Elder u32 channel_id = gsi_channel_id(evt_ring->channel); 1055650d1603SAlex Elder 1056650d1603SAlex Elder complete(&evt_ring->completion); 1057650d1603SAlex Elder dev_err(gsi->dev, "evt_ring for channel %u out of resources\n", 1058650d1603SAlex Elder channel_id); 1059650d1603SAlex Elder return; 1060650d1603SAlex Elder } 1061650d1603SAlex Elder 1062650d1603SAlex Elder /* Report, but otherwise ignore all other error codes */ 1063650d1603SAlex Elder dev_err(gsi->dev, "event ring %u global error ee %u code 0x%08x\n", 1064650d1603SAlex Elder evt_ring_id, err_ee, code); 1065650d1603SAlex Elder } 1066650d1603SAlex Elder 1067650d1603SAlex Elder /* Global error interrupt handler */ 1068650d1603SAlex Elder static void gsi_isr_glob_err(struct gsi *gsi) 1069650d1603SAlex Elder { 1070650d1603SAlex Elder enum gsi_err_type type; 1071650d1603SAlex Elder enum gsi_err_code code; 1072650d1603SAlex Elder u32 which; 1073650d1603SAlex Elder u32 val; 1074650d1603SAlex Elder u32 ee; 1075650d1603SAlex Elder 1076650d1603SAlex Elder /* Get the logged error, then reinitialize the log */ 1077650d1603SAlex Elder val = ioread32(gsi->virt + GSI_ERROR_LOG_OFFSET); 1078650d1603SAlex Elder iowrite32(0, gsi->virt + GSI_ERROR_LOG_OFFSET); 1079650d1603SAlex Elder iowrite32(~0, gsi->virt + GSI_ERROR_LOG_CLR_OFFSET); 1080650d1603SAlex Elder 1081650d1603SAlex Elder ee = u32_get_bits(val, ERR_EE_FMASK); 1082650d1603SAlex Elder type = u32_get_bits(val, ERR_TYPE_FMASK); 1083d6c9e3f5SAlex Elder which = u32_get_bits(val, ERR_VIRT_IDX_FMASK); 1084650d1603SAlex Elder code = u32_get_bits(val, ERR_CODE_FMASK); 1085650d1603SAlex Elder 1086650d1603SAlex Elder if (type == GSI_ERR_TYPE_CHAN) 1087650d1603SAlex Elder gsi_isr_glob_chan_err(gsi, ee, which, code); 1088650d1603SAlex Elder else if (type == GSI_ERR_TYPE_EVT) 1089650d1603SAlex Elder gsi_isr_glob_evt_err(gsi, ee, which, code); 1090650d1603SAlex Elder else /* type GSI_ERR_TYPE_GLOB should be fatal */ 1091650d1603SAlex Elder dev_err(gsi->dev, "unexpected global error 0x%08x\n", type); 1092650d1603SAlex Elder } 1093650d1603SAlex Elder 1094650d1603SAlex Elder /* Generic EE interrupt handler */ 1095650d1603SAlex Elder static void gsi_isr_gp_int1(struct gsi *gsi) 1096650d1603SAlex Elder { 1097650d1603SAlex Elder u32 result; 1098650d1603SAlex Elder u32 val; 1099650d1603SAlex Elder 1100650d1603SAlex Elder val = ioread32(gsi->virt + GSI_CNTXT_SCRATCH_0_OFFSET); 1101650d1603SAlex Elder result = u32_get_bits(val, GENERIC_EE_RESULT_FMASK); 1102650d1603SAlex Elder if (result != GENERIC_EE_SUCCESS_FVAL) 1103650d1603SAlex Elder dev_err(gsi->dev, "global INT1 generic result %u\n", result); 1104650d1603SAlex Elder 1105650d1603SAlex Elder complete(&gsi->completion); 1106650d1603SAlex Elder } 11070b1ba18aSAlex Elder 1108650d1603SAlex Elder /* Inter-EE interrupt handler */ 1109650d1603SAlex Elder static void gsi_isr_glob_ee(struct gsi *gsi) 1110650d1603SAlex Elder { 1111650d1603SAlex Elder u32 val; 1112650d1603SAlex Elder 1113650d1603SAlex Elder val = ioread32(gsi->virt + GSI_CNTXT_GLOB_IRQ_STTS_OFFSET); 1114650d1603SAlex Elder 11156c6358ccSAlex Elder if (val & BIT(ERROR_INT)) 1116650d1603SAlex Elder gsi_isr_glob_err(gsi); 1117650d1603SAlex Elder 1118650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CNTXT_GLOB_IRQ_CLR_OFFSET); 1119650d1603SAlex Elder 11206c6358ccSAlex Elder val &= ~BIT(ERROR_INT); 1121650d1603SAlex Elder 11226c6358ccSAlex Elder if (val & BIT(GP_INT1)) { 11236c6358ccSAlex Elder val ^= BIT(GP_INT1); 1124650d1603SAlex Elder gsi_isr_gp_int1(gsi); 1125650d1603SAlex Elder } 1126650d1603SAlex Elder 1127650d1603SAlex Elder if (val) 1128650d1603SAlex Elder dev_err(gsi->dev, "unexpected global interrupt 0x%08x\n", val); 1129650d1603SAlex Elder } 1130650d1603SAlex Elder 1131650d1603SAlex Elder /* I/O completion interrupt event */ 1132650d1603SAlex Elder static void gsi_isr_ieob(struct gsi *gsi) 1133650d1603SAlex Elder { 1134650d1603SAlex Elder u32 event_mask; 1135650d1603SAlex Elder 1136650d1603SAlex Elder event_mask = ioread32(gsi->virt + GSI_CNTXT_SRC_IEOB_IRQ_OFFSET); 1137195ef57fSAlex Elder iowrite32(event_mask, gsi->virt + GSI_CNTXT_SRC_IEOB_IRQ_CLR_OFFSET); 1138650d1603SAlex Elder 1139650d1603SAlex Elder while (event_mask) { 1140650d1603SAlex Elder u32 evt_ring_id = __ffs(event_mask); 1141650d1603SAlex Elder 1142650d1603SAlex Elder event_mask ^= BIT(evt_ring_id); 1143650d1603SAlex Elder 1144650d1603SAlex Elder gsi_irq_ieob_disable(gsi, evt_ring_id); 1145650d1603SAlex Elder napi_schedule(&gsi->evt_ring[evt_ring_id].channel->napi); 1146650d1603SAlex Elder } 1147650d1603SAlex Elder } 1148650d1603SAlex Elder 1149650d1603SAlex Elder /* General event interrupts represent serious problems, so report them */ 1150650d1603SAlex Elder static void gsi_isr_general(struct gsi *gsi) 1151650d1603SAlex Elder { 1152650d1603SAlex Elder struct device *dev = gsi->dev; 1153650d1603SAlex Elder u32 val; 1154650d1603SAlex Elder 1155650d1603SAlex Elder val = ioread32(gsi->virt + GSI_CNTXT_GSI_IRQ_STTS_OFFSET); 1156650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CNTXT_GSI_IRQ_CLR_OFFSET); 1157650d1603SAlex Elder 1158650d1603SAlex Elder dev_err(dev, "unexpected general interrupt 0x%08x\n", val); 1159650d1603SAlex Elder } 1160650d1603SAlex Elder 1161650d1603SAlex Elder /** 1162650d1603SAlex Elder * gsi_isr() - Top level GSI interrupt service routine 1163650d1603SAlex Elder * @irq: Interrupt number (ignored) 1164650d1603SAlex Elder * @dev_id: GSI pointer supplied to request_irq() 1165650d1603SAlex Elder * 1166650d1603SAlex Elder * This is the main handler function registered for the GSI IRQ. Each type 1167650d1603SAlex Elder * of interrupt has a separate handler function that is called from here. 1168650d1603SAlex Elder */ 1169650d1603SAlex Elder static irqreturn_t gsi_isr(int irq, void *dev_id) 1170650d1603SAlex Elder { 1171650d1603SAlex Elder struct gsi *gsi = dev_id; 1172650d1603SAlex Elder u32 intr_mask; 1173650d1603SAlex Elder u32 cnt = 0; 1174650d1603SAlex Elder 1175f9b28804SAlex Elder /* enum gsi_irq_type_id defines GSI interrupt types */ 1176650d1603SAlex Elder while ((intr_mask = ioread32(gsi->virt + GSI_CNTXT_TYPE_IRQ_OFFSET))) { 1177650d1603SAlex Elder /* intr_mask contains bitmask of pending GSI interrupts */ 1178650d1603SAlex Elder do { 1179650d1603SAlex Elder u32 gsi_intr = BIT(__ffs(intr_mask)); 1180650d1603SAlex Elder 1181650d1603SAlex Elder intr_mask ^= gsi_intr; 1182650d1603SAlex Elder 1183650d1603SAlex Elder switch (gsi_intr) { 1184f9b28804SAlex Elder case BIT(GSI_CH_CTRL): 1185650d1603SAlex Elder gsi_isr_chan_ctrl(gsi); 1186650d1603SAlex Elder break; 1187f9b28804SAlex Elder case BIT(GSI_EV_CTRL): 1188650d1603SAlex Elder gsi_isr_evt_ctrl(gsi); 1189650d1603SAlex Elder break; 1190f9b28804SAlex Elder case BIT(GSI_GLOB_EE): 1191650d1603SAlex Elder gsi_isr_glob_ee(gsi); 1192650d1603SAlex Elder break; 1193f9b28804SAlex Elder case BIT(GSI_IEOB): 1194650d1603SAlex Elder gsi_isr_ieob(gsi); 1195650d1603SAlex Elder break; 1196f9b28804SAlex Elder case BIT(GSI_GENERAL): 1197650d1603SAlex Elder gsi_isr_general(gsi); 1198650d1603SAlex Elder break; 1199650d1603SAlex Elder default: 1200650d1603SAlex Elder dev_err(gsi->dev, 12018463488aSAlex Elder "unrecognized interrupt type 0x%08x\n", 12028463488aSAlex Elder gsi_intr); 1203650d1603SAlex Elder break; 1204650d1603SAlex Elder } 1205650d1603SAlex Elder } while (intr_mask); 1206650d1603SAlex Elder 1207650d1603SAlex Elder if (++cnt > GSI_ISR_MAX_ITER) { 1208650d1603SAlex Elder dev_err(gsi->dev, "interrupt flood\n"); 1209650d1603SAlex Elder break; 1210650d1603SAlex Elder } 1211650d1603SAlex Elder } 1212650d1603SAlex Elder 1213650d1603SAlex Elder return IRQ_HANDLED; 1214650d1603SAlex Elder } 1215650d1603SAlex Elder 12160b8d6761SAlex Elder static int gsi_irq_init(struct gsi *gsi, struct platform_device *pdev) 12170b8d6761SAlex Elder { 12180b8d6761SAlex Elder struct device *dev = &pdev->dev; 12190b8d6761SAlex Elder unsigned int irq; 12200b8d6761SAlex Elder int ret; 12210b8d6761SAlex Elder 12220b8d6761SAlex Elder ret = platform_get_irq_byname(pdev, "gsi"); 12230b8d6761SAlex Elder if (ret <= 0) { 12240b8d6761SAlex Elder dev_err(dev, "DT error %d getting \"gsi\" IRQ property\n", ret); 12250b8d6761SAlex Elder return ret ? : -EINVAL; 12260b8d6761SAlex Elder } 12270b8d6761SAlex Elder irq = ret; 12280b8d6761SAlex Elder 12290b8d6761SAlex Elder ret = request_irq(irq, gsi_isr, 0, "gsi", gsi); 12300b8d6761SAlex Elder if (ret) { 12310b8d6761SAlex Elder dev_err(dev, "error %d requesting \"gsi\" IRQ\n", ret); 12320b8d6761SAlex Elder return ret; 12330b8d6761SAlex Elder } 12340b8d6761SAlex Elder gsi->irq = irq; 12350b8d6761SAlex Elder 12360b8d6761SAlex Elder return 0; 12370b8d6761SAlex Elder } 12380b8d6761SAlex Elder 12390b8d6761SAlex Elder static void gsi_irq_exit(struct gsi *gsi) 12400b8d6761SAlex Elder { 12410b8d6761SAlex Elder free_irq(gsi->irq, gsi); 12420b8d6761SAlex Elder } 12430b8d6761SAlex Elder 1244650d1603SAlex Elder /* Return the transaction associated with a transfer completion event */ 1245650d1603SAlex Elder static struct gsi_trans *gsi_event_trans(struct gsi_channel *channel, 1246650d1603SAlex Elder struct gsi_event *event) 1247650d1603SAlex Elder { 1248650d1603SAlex Elder u32 tre_offset; 1249650d1603SAlex Elder u32 tre_index; 1250650d1603SAlex Elder 1251650d1603SAlex Elder /* Event xfer_ptr records the TRE it's associated with */ 1252650d1603SAlex Elder tre_offset = le64_to_cpu(event->xfer_ptr) & GENMASK(31, 0); 1253650d1603SAlex Elder tre_index = gsi_ring_index(&channel->tre_ring, tre_offset); 1254650d1603SAlex Elder 1255650d1603SAlex Elder return gsi_channel_trans_mapped(channel, tre_index); 1256650d1603SAlex Elder } 1257650d1603SAlex Elder 1258650d1603SAlex Elder /** 1259650d1603SAlex Elder * gsi_evt_ring_rx_update() - Record lengths of received data 1260650d1603SAlex Elder * @evt_ring: Event ring associated with channel that received packets 1261650d1603SAlex Elder * @index: Event index in ring reported by hardware 1262650d1603SAlex Elder * 1263650d1603SAlex Elder * Events for RX channels contain the actual number of bytes received into 1264650d1603SAlex Elder * the buffer. Every event has a transaction associated with it, and here 1265650d1603SAlex Elder * we update transactions to record their actual received lengths. 1266650d1603SAlex Elder * 1267650d1603SAlex Elder * This function is called whenever we learn that the GSI hardware has filled 1268650d1603SAlex Elder * new events since the last time we checked. The ring's index field tells 1269650d1603SAlex Elder * the first entry in need of processing. The index provided is the 1270650d1603SAlex Elder * first *unfilled* event in the ring (following the last filled one). 1271650d1603SAlex Elder * 1272650d1603SAlex Elder * Events are sequential within the event ring, and transactions are 1273650d1603SAlex Elder * sequential within the transaction pool. 1274650d1603SAlex Elder * 1275650d1603SAlex Elder * Note that @index always refers to an element *within* the event ring. 1276650d1603SAlex Elder */ 1277650d1603SAlex Elder static void gsi_evt_ring_rx_update(struct gsi_evt_ring *evt_ring, u32 index) 1278650d1603SAlex Elder { 1279650d1603SAlex Elder struct gsi_channel *channel = evt_ring->channel; 1280650d1603SAlex Elder struct gsi_ring *ring = &evt_ring->ring; 1281650d1603SAlex Elder struct gsi_trans_info *trans_info; 1282650d1603SAlex Elder struct gsi_event *event_done; 1283650d1603SAlex Elder struct gsi_event *event; 1284650d1603SAlex Elder struct gsi_trans *trans; 1285650d1603SAlex Elder u32 byte_count = 0; 1286650d1603SAlex Elder u32 old_index; 1287650d1603SAlex Elder u32 event_avail; 1288650d1603SAlex Elder 1289650d1603SAlex Elder trans_info = &channel->trans_info; 1290650d1603SAlex Elder 1291650d1603SAlex Elder /* We'll start with the oldest un-processed event. RX channels 1292650d1603SAlex Elder * replenish receive buffers in single-TRE transactions, so we 1293650d1603SAlex Elder * can just map that event to its transaction. Transactions 1294650d1603SAlex Elder * associated with completion events are consecutive. 1295650d1603SAlex Elder */ 1296650d1603SAlex Elder old_index = ring->index; 1297650d1603SAlex Elder event = gsi_ring_virt(ring, old_index); 1298650d1603SAlex Elder trans = gsi_event_trans(channel, event); 1299650d1603SAlex Elder 1300650d1603SAlex Elder /* Compute the number of events to process before we wrap, 1301650d1603SAlex Elder * and determine when we'll be done processing events. 1302650d1603SAlex Elder */ 1303650d1603SAlex Elder event_avail = ring->count - old_index % ring->count; 1304650d1603SAlex Elder event_done = gsi_ring_virt(ring, index); 1305650d1603SAlex Elder do { 1306650d1603SAlex Elder trans->len = __le16_to_cpu(event->len); 1307650d1603SAlex Elder byte_count += trans->len; 1308650d1603SAlex Elder 1309650d1603SAlex Elder /* Move on to the next event and transaction */ 1310650d1603SAlex Elder if (--event_avail) 1311650d1603SAlex Elder event++; 1312650d1603SAlex Elder else 1313650d1603SAlex Elder event = gsi_ring_virt(ring, 0); 1314650d1603SAlex Elder trans = gsi_trans_pool_next(&trans_info->pool, trans); 1315650d1603SAlex Elder } while (event != event_done); 1316650d1603SAlex Elder 1317650d1603SAlex Elder /* We record RX bytes when they are received */ 1318650d1603SAlex Elder channel->byte_count += byte_count; 1319650d1603SAlex Elder channel->trans_count++; 1320650d1603SAlex Elder } 1321650d1603SAlex Elder 1322650d1603SAlex Elder /* Initialize a ring, including allocating DMA memory for its entries */ 1323650d1603SAlex Elder static int gsi_ring_alloc(struct gsi *gsi, struct gsi_ring *ring, u32 count) 1324650d1603SAlex Elder { 1325650d1603SAlex Elder size_t size = count * GSI_RING_ELEMENT_SIZE; 1326650d1603SAlex Elder struct device *dev = gsi->dev; 1327650d1603SAlex Elder dma_addr_t addr; 1328650d1603SAlex Elder 1329650d1603SAlex Elder /* Hardware requires a 2^n ring size, with alignment equal to size */ 1330650d1603SAlex Elder ring->virt = dma_alloc_coherent(dev, size, &addr, GFP_KERNEL); 1331650d1603SAlex Elder if (ring->virt && addr % size) { 1332650d1603SAlex Elder dma_free_coherent(dev, size, ring->virt, ring->addr); 1333650d1603SAlex Elder dev_err(dev, "unable to alloc 0x%zx-aligned ring buffer\n", 1334650d1603SAlex Elder size); 1335650d1603SAlex Elder return -EINVAL; /* Not a good error value, but distinct */ 1336650d1603SAlex Elder } else if (!ring->virt) { 1337650d1603SAlex Elder return -ENOMEM; 1338650d1603SAlex Elder } 1339650d1603SAlex Elder ring->addr = addr; 1340650d1603SAlex Elder ring->count = count; 1341650d1603SAlex Elder 1342650d1603SAlex Elder return 0; 1343650d1603SAlex Elder } 1344650d1603SAlex Elder 1345650d1603SAlex Elder /* Free a previously-allocated ring */ 1346650d1603SAlex Elder static void gsi_ring_free(struct gsi *gsi, struct gsi_ring *ring) 1347650d1603SAlex Elder { 1348650d1603SAlex Elder size_t size = ring->count * GSI_RING_ELEMENT_SIZE; 1349650d1603SAlex Elder 1350650d1603SAlex Elder dma_free_coherent(gsi->dev, size, ring->virt, ring->addr); 1351650d1603SAlex Elder } 1352650d1603SAlex Elder 1353650d1603SAlex Elder /* Allocate an available event ring id */ 1354650d1603SAlex Elder static int gsi_evt_ring_id_alloc(struct gsi *gsi) 1355650d1603SAlex Elder { 1356650d1603SAlex Elder u32 evt_ring_id; 1357650d1603SAlex Elder 1358650d1603SAlex Elder if (gsi->event_bitmap == ~0U) { 1359650d1603SAlex Elder dev_err(gsi->dev, "event rings exhausted\n"); 1360650d1603SAlex Elder return -ENOSPC; 1361650d1603SAlex Elder } 1362650d1603SAlex Elder 1363650d1603SAlex Elder evt_ring_id = ffz(gsi->event_bitmap); 1364650d1603SAlex Elder gsi->event_bitmap |= BIT(evt_ring_id); 1365650d1603SAlex Elder 1366650d1603SAlex Elder return (int)evt_ring_id; 1367650d1603SAlex Elder } 1368650d1603SAlex Elder 1369650d1603SAlex Elder /* Free a previously-allocated event ring id */ 1370650d1603SAlex Elder static void gsi_evt_ring_id_free(struct gsi *gsi, u32 evt_ring_id) 1371650d1603SAlex Elder { 1372650d1603SAlex Elder gsi->event_bitmap &= ~BIT(evt_ring_id); 1373650d1603SAlex Elder } 1374650d1603SAlex Elder 1375650d1603SAlex Elder /* Ring a channel doorbell, reporting the first un-filled entry */ 1376650d1603SAlex Elder void gsi_channel_doorbell(struct gsi_channel *channel) 1377650d1603SAlex Elder { 1378650d1603SAlex Elder struct gsi_ring *tre_ring = &channel->tre_ring; 1379650d1603SAlex Elder u32 channel_id = gsi_channel_id(channel); 1380650d1603SAlex Elder struct gsi *gsi = channel->gsi; 1381650d1603SAlex Elder u32 val; 1382650d1603SAlex Elder 1383650d1603SAlex Elder /* Note: index *must* be used modulo the ring count here */ 1384650d1603SAlex Elder val = gsi_ring_addr(tre_ring, tre_ring->index % tre_ring->count); 1385650d1603SAlex Elder iowrite32(val, gsi->virt + GSI_CH_C_DOORBELL_0_OFFSET(channel_id)); 1386650d1603SAlex Elder } 1387650d1603SAlex Elder 1388650d1603SAlex Elder /* Consult hardware, move any newly completed transactions to completed list */ 1389650d1603SAlex Elder static void gsi_channel_update(struct gsi_channel *channel) 1390650d1603SAlex Elder { 1391650d1603SAlex Elder u32 evt_ring_id = channel->evt_ring_id; 1392650d1603SAlex Elder struct gsi *gsi = channel->gsi; 1393650d1603SAlex Elder struct gsi_evt_ring *evt_ring; 1394650d1603SAlex Elder struct gsi_trans *trans; 1395650d1603SAlex Elder struct gsi_ring *ring; 1396650d1603SAlex Elder u32 offset; 1397650d1603SAlex Elder u32 index; 1398650d1603SAlex Elder 1399650d1603SAlex Elder evt_ring = &gsi->evt_ring[evt_ring_id]; 1400650d1603SAlex Elder ring = &evt_ring->ring; 1401650d1603SAlex Elder 1402650d1603SAlex Elder /* See if there's anything new to process; if not, we're done. Note 1403650d1603SAlex Elder * that index always refers to an entry *within* the event ring. 1404650d1603SAlex Elder */ 1405650d1603SAlex Elder offset = GSI_EV_CH_E_CNTXT_4_OFFSET(evt_ring_id); 1406650d1603SAlex Elder index = gsi_ring_index(ring, ioread32(gsi->virt + offset)); 1407650d1603SAlex Elder if (index == ring->index % ring->count) 1408650d1603SAlex Elder return; 1409650d1603SAlex Elder 1410650d1603SAlex Elder /* Get the transaction for the latest completed event. Take a 1411650d1603SAlex Elder * reference to keep it from completing before we give the events 1412650d1603SAlex Elder * for this and previous transactions back to the hardware. 1413650d1603SAlex Elder */ 1414650d1603SAlex Elder trans = gsi_event_trans(channel, gsi_ring_virt(ring, index - 1)); 1415650d1603SAlex Elder refcount_inc(&trans->refcount); 1416650d1603SAlex Elder 1417650d1603SAlex Elder /* For RX channels, update each completed transaction with the number 1418650d1603SAlex Elder * of bytes that were actually received. For TX channels, report 1419650d1603SAlex Elder * the number of transactions and bytes this completion represents 1420650d1603SAlex Elder * up the network stack. 1421650d1603SAlex Elder */ 1422650d1603SAlex Elder if (channel->toward_ipa) 1423650d1603SAlex Elder gsi_channel_tx_update(channel, trans); 1424650d1603SAlex Elder else 1425650d1603SAlex Elder gsi_evt_ring_rx_update(evt_ring, index); 1426650d1603SAlex Elder 1427650d1603SAlex Elder gsi_trans_move_complete(trans); 1428650d1603SAlex Elder 1429650d1603SAlex Elder /* Tell the hardware we've handled these events */ 1430650d1603SAlex Elder gsi_evt_ring_doorbell(channel->gsi, channel->evt_ring_id, index); 1431650d1603SAlex Elder 1432650d1603SAlex Elder gsi_trans_free(trans); 1433650d1603SAlex Elder } 1434650d1603SAlex Elder 1435650d1603SAlex Elder /** 1436650d1603SAlex Elder * gsi_channel_poll_one() - Return a single completed transaction on a channel 1437650d1603SAlex Elder * @channel: Channel to be polled 1438650d1603SAlex Elder * 1439e3eea08eSAlex Elder * Return: Transaction pointer, or null if none are available 1440650d1603SAlex Elder * 1441650d1603SAlex Elder * This function returns the first entry on a channel's completed transaction 1442650d1603SAlex Elder * list. If that list is empty, the hardware is consulted to determine 1443650d1603SAlex Elder * whether any new transactions have completed. If so, they're moved to the 1444650d1603SAlex Elder * completed list and the new first entry is returned. If there are no more 1445650d1603SAlex Elder * completed transactions, a null pointer is returned. 1446650d1603SAlex Elder */ 1447650d1603SAlex Elder static struct gsi_trans *gsi_channel_poll_one(struct gsi_channel *channel) 1448650d1603SAlex Elder { 1449650d1603SAlex Elder struct gsi_trans *trans; 1450650d1603SAlex Elder 1451650d1603SAlex Elder /* Get the first transaction from the completed list */ 1452650d1603SAlex Elder trans = gsi_channel_trans_complete(channel); 1453650d1603SAlex Elder if (!trans) { 1454650d1603SAlex Elder /* List is empty; see if there's more to do */ 1455650d1603SAlex Elder gsi_channel_update(channel); 1456650d1603SAlex Elder trans = gsi_channel_trans_complete(channel); 1457650d1603SAlex Elder } 1458650d1603SAlex Elder 1459650d1603SAlex Elder if (trans) 1460650d1603SAlex Elder gsi_trans_move_polled(trans); 1461650d1603SAlex Elder 1462650d1603SAlex Elder return trans; 1463650d1603SAlex Elder } 1464650d1603SAlex Elder 1465650d1603SAlex Elder /** 1466650d1603SAlex Elder * gsi_channel_poll() - NAPI poll function for a channel 1467650d1603SAlex Elder * @napi: NAPI structure for the channel 1468650d1603SAlex Elder * @budget: Budget supplied by NAPI core 1469e3eea08eSAlex Elder * 1470e3eea08eSAlex Elder * Return: Number of items polled (<= budget) 1471650d1603SAlex Elder * 1472650d1603SAlex Elder * Single transactions completed by hardware are polled until either 1473650d1603SAlex Elder * the budget is exhausted, or there are no more. Each transaction 1474650d1603SAlex Elder * polled is passed to gsi_trans_complete(), to perform remaining 1475650d1603SAlex Elder * completion processing and retire/free the transaction. 1476650d1603SAlex Elder */ 1477650d1603SAlex Elder static int gsi_channel_poll(struct napi_struct *napi, int budget) 1478650d1603SAlex Elder { 1479650d1603SAlex Elder struct gsi_channel *channel; 1480650d1603SAlex Elder int count = 0; 1481650d1603SAlex Elder 1482650d1603SAlex Elder channel = container_of(napi, struct gsi_channel, napi); 1483650d1603SAlex Elder while (count < budget) { 1484650d1603SAlex Elder struct gsi_trans *trans; 1485650d1603SAlex Elder 1486f45a7bccSAlex Elder count++; 1487650d1603SAlex Elder trans = gsi_channel_poll_one(channel); 1488650d1603SAlex Elder if (!trans) 1489650d1603SAlex Elder break; 1490650d1603SAlex Elder gsi_trans_complete(trans); 1491650d1603SAlex Elder } 1492650d1603SAlex Elder 1493650d1603SAlex Elder if (count < budget) { 1494650d1603SAlex Elder napi_complete(&channel->napi); 1495650d1603SAlex Elder gsi_irq_ieob_enable(channel->gsi, channel->evt_ring_id); 1496650d1603SAlex Elder } 1497650d1603SAlex Elder 1498650d1603SAlex Elder return count; 1499650d1603SAlex Elder } 1500650d1603SAlex Elder 1501650d1603SAlex Elder /* The event bitmap represents which event ids are available for allocation. 1502650d1603SAlex Elder * Set bits are not available, clear bits can be used. This function 1503650d1603SAlex Elder * initializes the map so all events supported by the hardware are available, 1504650d1603SAlex Elder * then precludes any reserved events from being allocated. 1505650d1603SAlex Elder */ 1506650d1603SAlex Elder static u32 gsi_event_bitmap_init(u32 evt_ring_max) 1507650d1603SAlex Elder { 1508650d1603SAlex Elder u32 event_bitmap = GENMASK(BITS_PER_LONG - 1, evt_ring_max); 1509650d1603SAlex Elder 1510650d1603SAlex Elder event_bitmap |= GENMASK(GSI_MHI_EVENT_ID_END, GSI_MHI_EVENT_ID_START); 1511650d1603SAlex Elder 1512650d1603SAlex Elder return event_bitmap; 1513650d1603SAlex Elder } 1514650d1603SAlex Elder 1515650d1603SAlex Elder /* Setup function for event rings */ 1516650d1603SAlex Elder static void gsi_evt_ring_setup(struct gsi *gsi) 1517650d1603SAlex Elder { 1518650d1603SAlex Elder /* Nothing to do */ 1519650d1603SAlex Elder } 1520650d1603SAlex Elder 1521650d1603SAlex Elder /* Inverse of gsi_evt_ring_setup() */ 1522650d1603SAlex Elder static void gsi_evt_ring_teardown(struct gsi *gsi) 1523650d1603SAlex Elder { 1524650d1603SAlex Elder /* Nothing to do */ 1525650d1603SAlex Elder } 1526650d1603SAlex Elder 1527650d1603SAlex Elder /* Setup function for a single channel */ 1528d387c761SAlex Elder static int gsi_channel_setup_one(struct gsi *gsi, u32 channel_id) 1529650d1603SAlex Elder { 1530650d1603SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 1531650d1603SAlex Elder u32 evt_ring_id = channel->evt_ring_id; 1532650d1603SAlex Elder int ret; 1533650d1603SAlex Elder 1534650d1603SAlex Elder if (!channel->gsi) 1535650d1603SAlex Elder return 0; /* Ignore uninitialized channels */ 1536650d1603SAlex Elder 1537650d1603SAlex Elder ret = gsi_evt_ring_alloc_command(gsi, evt_ring_id); 1538650d1603SAlex Elder if (ret) 1539650d1603SAlex Elder return ret; 1540650d1603SAlex Elder 1541650d1603SAlex Elder gsi_evt_ring_program(gsi, evt_ring_id); 1542650d1603SAlex Elder 1543650d1603SAlex Elder ret = gsi_channel_alloc_command(gsi, channel_id); 1544650d1603SAlex Elder if (ret) 1545650d1603SAlex Elder goto err_evt_ring_de_alloc; 1546650d1603SAlex Elder 1547d387c761SAlex Elder gsi_channel_program(channel, true); 1548650d1603SAlex Elder 1549650d1603SAlex Elder if (channel->toward_ipa) 1550650d1603SAlex Elder netif_tx_napi_add(&gsi->dummy_dev, &channel->napi, 1551650d1603SAlex Elder gsi_channel_poll, NAPI_POLL_WEIGHT); 1552650d1603SAlex Elder else 1553650d1603SAlex Elder netif_napi_add(&gsi->dummy_dev, &channel->napi, 1554650d1603SAlex Elder gsi_channel_poll, NAPI_POLL_WEIGHT); 1555650d1603SAlex Elder 1556650d1603SAlex Elder return 0; 1557650d1603SAlex Elder 1558650d1603SAlex Elder err_evt_ring_de_alloc: 1559650d1603SAlex Elder /* We've done nothing with the event ring yet so don't reset */ 1560650d1603SAlex Elder gsi_evt_ring_de_alloc_command(gsi, evt_ring_id); 1561650d1603SAlex Elder 1562650d1603SAlex Elder return ret; 1563650d1603SAlex Elder } 1564650d1603SAlex Elder 1565650d1603SAlex Elder /* Inverse of gsi_channel_setup_one() */ 1566650d1603SAlex Elder static void gsi_channel_teardown_one(struct gsi *gsi, u32 channel_id) 1567650d1603SAlex Elder { 1568650d1603SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 1569650d1603SAlex Elder u32 evt_ring_id = channel->evt_ring_id; 1570650d1603SAlex Elder 1571650d1603SAlex Elder if (!channel->gsi) 1572650d1603SAlex Elder return; /* Ignore uninitialized channels */ 1573650d1603SAlex Elder 1574650d1603SAlex Elder netif_napi_del(&channel->napi); 1575650d1603SAlex Elder 1576650d1603SAlex Elder gsi_channel_deprogram(channel); 1577650d1603SAlex Elder gsi_channel_de_alloc_command(gsi, channel_id); 1578650d1603SAlex Elder gsi_evt_ring_reset_command(gsi, evt_ring_id); 1579650d1603SAlex Elder gsi_evt_ring_de_alloc_command(gsi, evt_ring_id); 1580650d1603SAlex Elder } 1581650d1603SAlex Elder 1582650d1603SAlex Elder static int gsi_generic_command(struct gsi *gsi, u32 channel_id, 1583650d1603SAlex Elder enum gsi_generic_cmd_opcode opcode) 1584650d1603SAlex Elder { 1585650d1603SAlex Elder struct completion *completion = &gsi->completion; 1586d6c9e3f5SAlex Elder bool success; 1587650d1603SAlex Elder u32 val; 1588650d1603SAlex Elder 1589d6c9e3f5SAlex Elder /* The error global interrupt type is always enabled (until we 1590d6c9e3f5SAlex Elder * teardown), so we won't change that. A generic EE command 1591d6c9e3f5SAlex Elder * completes with a GSI global interrupt of type GP_INT1. We 1592d6c9e3f5SAlex Elder * only perform one generic command at a time (to allocate or 1593d6c9e3f5SAlex Elder * halt a modem channel) and only from this function. So we 1594d6c9e3f5SAlex Elder * enable the GP_INT1 IRQ type here while we're expecting it. 1595d6c9e3f5SAlex Elder */ 15966c6358ccSAlex Elder val = BIT(ERROR_INT) | BIT(GP_INT1); 1597d6c9e3f5SAlex Elder iowrite32(val, gsi->virt + GSI_CNTXT_GLOB_IRQ_EN_OFFSET); 1598d6c9e3f5SAlex Elder 15990b1ba18aSAlex Elder /* First zero the result code field */ 16000b1ba18aSAlex Elder val = ioread32(gsi->virt + GSI_CNTXT_SCRATCH_0_OFFSET); 16010b1ba18aSAlex Elder val &= ~GENERIC_EE_RESULT_FMASK; 16020b1ba18aSAlex Elder iowrite32(val, gsi->virt + GSI_CNTXT_SCRATCH_0_OFFSET); 16030b1ba18aSAlex Elder 16040b1ba18aSAlex Elder /* Now issue the command */ 1605650d1603SAlex Elder val = u32_encode_bits(opcode, GENERIC_OPCODE_FMASK); 1606650d1603SAlex Elder val |= u32_encode_bits(channel_id, GENERIC_CHID_FMASK); 1607650d1603SAlex Elder val |= u32_encode_bits(GSI_EE_MODEM, GENERIC_EE_FMASK); 1608650d1603SAlex Elder 1609d6c9e3f5SAlex Elder success = gsi_command(gsi, GSI_GENERIC_CMD_OFFSET, val, completion); 1610d6c9e3f5SAlex Elder 1611d6c9e3f5SAlex Elder /* Disable the GP_INT1 IRQ type again */ 16126c6358ccSAlex Elder iowrite32(BIT(ERROR_INT), gsi->virt + GSI_CNTXT_GLOB_IRQ_EN_OFFSET); 1613d6c9e3f5SAlex Elder 1614d6c9e3f5SAlex Elder if (success) 1615d6c9e3f5SAlex Elder return 0; 1616650d1603SAlex Elder 1617650d1603SAlex Elder dev_err(gsi->dev, "GSI generic command %u to channel %u timed out\n", 1618650d1603SAlex Elder opcode, channel_id); 1619650d1603SAlex Elder 1620650d1603SAlex Elder return -ETIMEDOUT; 1621650d1603SAlex Elder } 1622650d1603SAlex Elder 1623650d1603SAlex Elder static int gsi_modem_channel_alloc(struct gsi *gsi, u32 channel_id) 1624650d1603SAlex Elder { 1625650d1603SAlex Elder return gsi_generic_command(gsi, channel_id, 1626650d1603SAlex Elder GSI_GENERIC_ALLOCATE_CHANNEL); 1627650d1603SAlex Elder } 1628650d1603SAlex Elder 1629650d1603SAlex Elder static void gsi_modem_channel_halt(struct gsi *gsi, u32 channel_id) 1630650d1603SAlex Elder { 1631bf795af1SAlex Elder (void)gsi_generic_command(gsi, channel_id, GSI_GENERIC_HALT_CHANNEL); 1632650d1603SAlex Elder } 1633650d1603SAlex Elder 1634650d1603SAlex Elder /* Setup function for channels */ 1635d387c761SAlex Elder static int gsi_channel_setup(struct gsi *gsi) 1636650d1603SAlex Elder { 1637650d1603SAlex Elder u32 channel_id = 0; 1638650d1603SAlex Elder u32 mask; 1639650d1603SAlex Elder int ret; 1640650d1603SAlex Elder 1641650d1603SAlex Elder gsi_evt_ring_setup(gsi); 1642650d1603SAlex Elder gsi_irq_enable(gsi); 1643650d1603SAlex Elder 1644650d1603SAlex Elder mutex_lock(&gsi->mutex); 1645650d1603SAlex Elder 1646650d1603SAlex Elder do { 1647d387c761SAlex Elder ret = gsi_channel_setup_one(gsi, channel_id); 1648650d1603SAlex Elder if (ret) 1649650d1603SAlex Elder goto err_unwind; 1650650d1603SAlex Elder } while (++channel_id < gsi->channel_count); 1651650d1603SAlex Elder 1652650d1603SAlex Elder /* Make sure no channels were defined that hardware does not support */ 1653650d1603SAlex Elder while (channel_id < GSI_CHANNEL_COUNT_MAX) { 1654650d1603SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id++]; 1655650d1603SAlex Elder 1656650d1603SAlex Elder if (!channel->gsi) 1657650d1603SAlex Elder continue; /* Ignore uninitialized channels */ 1658650d1603SAlex Elder 1659650d1603SAlex Elder dev_err(gsi->dev, "channel %u not supported by hardware\n", 1660650d1603SAlex Elder channel_id - 1); 1661650d1603SAlex Elder channel_id = gsi->channel_count; 1662650d1603SAlex Elder goto err_unwind; 1663650d1603SAlex Elder } 1664650d1603SAlex Elder 1665650d1603SAlex Elder /* Allocate modem channels if necessary */ 1666650d1603SAlex Elder mask = gsi->modem_channel_bitmap; 1667650d1603SAlex Elder while (mask) { 1668650d1603SAlex Elder u32 modem_channel_id = __ffs(mask); 1669650d1603SAlex Elder 1670650d1603SAlex Elder ret = gsi_modem_channel_alloc(gsi, modem_channel_id); 1671650d1603SAlex Elder if (ret) 1672650d1603SAlex Elder goto err_unwind_modem; 1673650d1603SAlex Elder 1674650d1603SAlex Elder /* Clear bit from mask only after success (for unwind) */ 1675650d1603SAlex Elder mask ^= BIT(modem_channel_id); 1676650d1603SAlex Elder } 1677650d1603SAlex Elder 1678650d1603SAlex Elder mutex_unlock(&gsi->mutex); 1679650d1603SAlex Elder 1680650d1603SAlex Elder return 0; 1681650d1603SAlex Elder 1682650d1603SAlex Elder err_unwind_modem: 1683650d1603SAlex Elder /* Compute which modem channels need to be deallocated */ 1684650d1603SAlex Elder mask ^= gsi->modem_channel_bitmap; 1685650d1603SAlex Elder while (mask) { 1686993cac15SAlex Elder channel_id = __fls(mask); 1687650d1603SAlex Elder 1688650d1603SAlex Elder mask ^= BIT(channel_id); 1689650d1603SAlex Elder 1690650d1603SAlex Elder gsi_modem_channel_halt(gsi, channel_id); 1691650d1603SAlex Elder } 1692650d1603SAlex Elder 1693650d1603SAlex Elder err_unwind: 1694650d1603SAlex Elder while (channel_id--) 1695650d1603SAlex Elder gsi_channel_teardown_one(gsi, channel_id); 1696650d1603SAlex Elder 1697650d1603SAlex Elder mutex_unlock(&gsi->mutex); 1698650d1603SAlex Elder 1699650d1603SAlex Elder gsi_irq_disable(gsi); 1700650d1603SAlex Elder gsi_evt_ring_teardown(gsi); 1701650d1603SAlex Elder 1702650d1603SAlex Elder return ret; 1703650d1603SAlex Elder } 1704650d1603SAlex Elder 1705650d1603SAlex Elder /* Inverse of gsi_channel_setup() */ 1706650d1603SAlex Elder static void gsi_channel_teardown(struct gsi *gsi) 1707650d1603SAlex Elder { 1708650d1603SAlex Elder u32 mask = gsi->modem_channel_bitmap; 1709650d1603SAlex Elder u32 channel_id; 1710650d1603SAlex Elder 1711650d1603SAlex Elder mutex_lock(&gsi->mutex); 1712650d1603SAlex Elder 1713650d1603SAlex Elder while (mask) { 1714993cac15SAlex Elder channel_id = __fls(mask); 1715650d1603SAlex Elder 1716650d1603SAlex Elder mask ^= BIT(channel_id); 1717650d1603SAlex Elder 1718650d1603SAlex Elder gsi_modem_channel_halt(gsi, channel_id); 1719650d1603SAlex Elder } 1720650d1603SAlex Elder 1721650d1603SAlex Elder channel_id = gsi->channel_count - 1; 1722650d1603SAlex Elder do 1723650d1603SAlex Elder gsi_channel_teardown_one(gsi, channel_id); 1724650d1603SAlex Elder while (channel_id--); 1725650d1603SAlex Elder 1726650d1603SAlex Elder mutex_unlock(&gsi->mutex); 1727650d1603SAlex Elder 1728650d1603SAlex Elder gsi_irq_disable(gsi); 1729650d1603SAlex Elder gsi_evt_ring_teardown(gsi); 1730650d1603SAlex Elder } 1731650d1603SAlex Elder 1732650d1603SAlex Elder /* Setup function for GSI. GSI firmware must be loaded and initialized */ 1733d387c761SAlex Elder int gsi_setup(struct gsi *gsi) 1734650d1603SAlex Elder { 17358463488aSAlex Elder struct device *dev = gsi->dev; 1736650d1603SAlex Elder u32 val; 173797eb94c8SAlex Elder int ret; 1738650d1603SAlex Elder 1739650d1603SAlex Elder /* Here is where we first touch the GSI hardware */ 1740650d1603SAlex Elder val = ioread32(gsi->virt + GSI_GSI_STATUS_OFFSET); 1741650d1603SAlex Elder if (!(val & ENABLED_FMASK)) { 17428463488aSAlex Elder dev_err(dev, "GSI has not been enabled\n"); 1743650d1603SAlex Elder return -EIO; 1744650d1603SAlex Elder } 1745650d1603SAlex Elder 174697eb94c8SAlex Elder gsi_irq_setup(gsi); 174797eb94c8SAlex Elder 1748650d1603SAlex Elder val = ioread32(gsi->virt + GSI_GSI_HW_PARAM_2_OFFSET); 1749650d1603SAlex Elder 1750650d1603SAlex Elder gsi->channel_count = u32_get_bits(val, NUM_CH_PER_EE_FMASK); 1751650d1603SAlex Elder if (!gsi->channel_count) { 17528463488aSAlex Elder dev_err(dev, "GSI reports zero channels supported\n"); 1753650d1603SAlex Elder return -EINVAL; 1754650d1603SAlex Elder } 1755650d1603SAlex Elder if (gsi->channel_count > GSI_CHANNEL_COUNT_MAX) { 17568463488aSAlex Elder dev_warn(dev, 17578463488aSAlex Elder "limiting to %u channels; hardware supports %u\n", 1758650d1603SAlex Elder GSI_CHANNEL_COUNT_MAX, gsi->channel_count); 1759650d1603SAlex Elder gsi->channel_count = GSI_CHANNEL_COUNT_MAX; 1760650d1603SAlex Elder } 1761650d1603SAlex Elder 1762650d1603SAlex Elder gsi->evt_ring_count = u32_get_bits(val, NUM_EV_PER_EE_FMASK); 1763650d1603SAlex Elder if (!gsi->evt_ring_count) { 17648463488aSAlex Elder dev_err(dev, "GSI reports zero event rings supported\n"); 1765650d1603SAlex Elder return -EINVAL; 1766650d1603SAlex Elder } 1767650d1603SAlex Elder if (gsi->evt_ring_count > GSI_EVT_RING_COUNT_MAX) { 17688463488aSAlex Elder dev_warn(dev, 17698463488aSAlex Elder "limiting to %u event rings; hardware supports %u\n", 1770650d1603SAlex Elder GSI_EVT_RING_COUNT_MAX, gsi->evt_ring_count); 1771650d1603SAlex Elder gsi->evt_ring_count = GSI_EVT_RING_COUNT_MAX; 1772650d1603SAlex Elder } 1773650d1603SAlex Elder 1774650d1603SAlex Elder /* Initialize the error log */ 1775650d1603SAlex Elder iowrite32(0, gsi->virt + GSI_ERROR_LOG_OFFSET); 1776650d1603SAlex Elder 1777650d1603SAlex Elder /* Writing 1 indicates IRQ interrupts; 0 would be MSI */ 1778650d1603SAlex Elder iowrite32(1, gsi->virt + GSI_CNTXT_INTSET_OFFSET); 1779650d1603SAlex Elder 178097eb94c8SAlex Elder ret = gsi_channel_setup(gsi); 178197eb94c8SAlex Elder if (ret) 178297eb94c8SAlex Elder gsi_irq_teardown(gsi); 178397eb94c8SAlex Elder 178497eb94c8SAlex Elder return ret; 1785650d1603SAlex Elder } 1786650d1603SAlex Elder 1787650d1603SAlex Elder /* Inverse of gsi_setup() */ 1788650d1603SAlex Elder void gsi_teardown(struct gsi *gsi) 1789650d1603SAlex Elder { 1790650d1603SAlex Elder gsi_channel_teardown(gsi); 179197eb94c8SAlex Elder gsi_irq_teardown(gsi); 1792650d1603SAlex Elder } 1793650d1603SAlex Elder 1794650d1603SAlex Elder /* Initialize a channel's event ring */ 1795650d1603SAlex Elder static int gsi_channel_evt_ring_init(struct gsi_channel *channel) 1796650d1603SAlex Elder { 1797650d1603SAlex Elder struct gsi *gsi = channel->gsi; 1798650d1603SAlex Elder struct gsi_evt_ring *evt_ring; 1799650d1603SAlex Elder int ret; 1800650d1603SAlex Elder 1801650d1603SAlex Elder ret = gsi_evt_ring_id_alloc(gsi); 1802650d1603SAlex Elder if (ret < 0) 1803650d1603SAlex Elder return ret; 1804650d1603SAlex Elder channel->evt_ring_id = ret; 1805650d1603SAlex Elder 1806650d1603SAlex Elder evt_ring = &gsi->evt_ring[channel->evt_ring_id]; 1807650d1603SAlex Elder evt_ring->channel = channel; 1808650d1603SAlex Elder 1809650d1603SAlex Elder ret = gsi_ring_alloc(gsi, &evt_ring->ring, channel->event_count); 1810650d1603SAlex Elder if (!ret) 1811650d1603SAlex Elder return 0; /* Success! */ 1812650d1603SAlex Elder 1813650d1603SAlex Elder dev_err(gsi->dev, "error %d allocating channel %u event ring\n", 1814650d1603SAlex Elder ret, gsi_channel_id(channel)); 1815650d1603SAlex Elder 1816650d1603SAlex Elder gsi_evt_ring_id_free(gsi, channel->evt_ring_id); 1817650d1603SAlex Elder 1818650d1603SAlex Elder return ret; 1819650d1603SAlex Elder } 1820650d1603SAlex Elder 1821650d1603SAlex Elder /* Inverse of gsi_channel_evt_ring_init() */ 1822650d1603SAlex Elder static void gsi_channel_evt_ring_exit(struct gsi_channel *channel) 1823650d1603SAlex Elder { 1824650d1603SAlex Elder u32 evt_ring_id = channel->evt_ring_id; 1825650d1603SAlex Elder struct gsi *gsi = channel->gsi; 1826650d1603SAlex Elder struct gsi_evt_ring *evt_ring; 1827650d1603SAlex Elder 1828650d1603SAlex Elder evt_ring = &gsi->evt_ring[evt_ring_id]; 1829650d1603SAlex Elder gsi_ring_free(gsi, &evt_ring->ring); 1830650d1603SAlex Elder gsi_evt_ring_id_free(gsi, evt_ring_id); 1831650d1603SAlex Elder } 1832650d1603SAlex Elder 1833650d1603SAlex Elder /* Init function for event rings */ 1834650d1603SAlex Elder static void gsi_evt_ring_init(struct gsi *gsi) 1835650d1603SAlex Elder { 1836650d1603SAlex Elder u32 evt_ring_id = 0; 1837650d1603SAlex Elder 1838650d1603SAlex Elder gsi->event_bitmap = gsi_event_bitmap_init(GSI_EVT_RING_COUNT_MAX); 1839a054539dSAlex Elder gsi->ieob_enabled_bitmap = 0; 1840650d1603SAlex Elder do 1841650d1603SAlex Elder init_completion(&gsi->evt_ring[evt_ring_id].completion); 1842650d1603SAlex Elder while (++evt_ring_id < GSI_EVT_RING_COUNT_MAX); 1843650d1603SAlex Elder } 1844650d1603SAlex Elder 1845650d1603SAlex Elder /* Inverse of gsi_evt_ring_init() */ 1846650d1603SAlex Elder static void gsi_evt_ring_exit(struct gsi *gsi) 1847650d1603SAlex Elder { 1848650d1603SAlex Elder /* Nothing to do */ 1849650d1603SAlex Elder } 1850650d1603SAlex Elder 1851650d1603SAlex Elder static bool gsi_channel_data_valid(struct gsi *gsi, 1852650d1603SAlex Elder const struct ipa_gsi_endpoint_data *data) 1853650d1603SAlex Elder { 1854650d1603SAlex Elder #ifdef IPA_VALIDATION 1855650d1603SAlex Elder u32 channel_id = data->channel_id; 1856650d1603SAlex Elder struct device *dev = gsi->dev; 1857650d1603SAlex Elder 1858650d1603SAlex Elder /* Make sure channel ids are in the range driver supports */ 1859650d1603SAlex Elder if (channel_id >= GSI_CHANNEL_COUNT_MAX) { 18608463488aSAlex Elder dev_err(dev, "bad channel id %u; must be less than %u\n", 1861650d1603SAlex Elder channel_id, GSI_CHANNEL_COUNT_MAX); 1862650d1603SAlex Elder return false; 1863650d1603SAlex Elder } 1864650d1603SAlex Elder 1865650d1603SAlex Elder if (data->ee_id != GSI_EE_AP && data->ee_id != GSI_EE_MODEM) { 18668463488aSAlex Elder dev_err(dev, "bad EE id %u; not AP or modem\n", data->ee_id); 1867650d1603SAlex Elder return false; 1868650d1603SAlex Elder } 1869650d1603SAlex Elder 1870650d1603SAlex Elder if (!data->channel.tlv_count || 1871650d1603SAlex Elder data->channel.tlv_count > GSI_TLV_MAX) { 18728463488aSAlex Elder dev_err(dev, "channel %u bad tlv_count %u; must be 1..%u\n", 1873650d1603SAlex Elder channel_id, data->channel.tlv_count, GSI_TLV_MAX); 1874650d1603SAlex Elder return false; 1875650d1603SAlex Elder } 1876650d1603SAlex Elder 1877650d1603SAlex Elder /* We have to allow at least one maximally-sized transaction to 1878650d1603SAlex Elder * be outstanding (which would use tlv_count TREs). Given how 1879650d1603SAlex Elder * gsi_channel_tre_max() is computed, tre_count has to be almost 1880650d1603SAlex Elder * twice the TLV FIFO size to satisfy this requirement. 1881650d1603SAlex Elder */ 1882650d1603SAlex Elder if (data->channel.tre_count < 2 * data->channel.tlv_count - 1) { 1883650d1603SAlex Elder dev_err(dev, "channel %u TLV count %u exceeds TRE count %u\n", 1884650d1603SAlex Elder channel_id, data->channel.tlv_count, 1885650d1603SAlex Elder data->channel.tre_count); 1886650d1603SAlex Elder return false; 1887650d1603SAlex Elder } 1888650d1603SAlex Elder 1889650d1603SAlex Elder if (!is_power_of_2(data->channel.tre_count)) { 18908463488aSAlex Elder dev_err(dev, "channel %u bad tre_count %u; not power of 2\n", 1891650d1603SAlex Elder channel_id, data->channel.tre_count); 1892650d1603SAlex Elder return false; 1893650d1603SAlex Elder } 1894650d1603SAlex Elder 1895650d1603SAlex Elder if (!is_power_of_2(data->channel.event_count)) { 18968463488aSAlex Elder dev_err(dev, "channel %u bad event_count %u; not power of 2\n", 1897650d1603SAlex Elder channel_id, data->channel.event_count); 1898650d1603SAlex Elder return false; 1899650d1603SAlex Elder } 1900650d1603SAlex Elder #endif /* IPA_VALIDATION */ 1901650d1603SAlex Elder 1902650d1603SAlex Elder return true; 1903650d1603SAlex Elder } 1904650d1603SAlex Elder 1905650d1603SAlex Elder /* Init function for a single channel */ 1906650d1603SAlex Elder static int gsi_channel_init_one(struct gsi *gsi, 1907650d1603SAlex Elder const struct ipa_gsi_endpoint_data *data, 190814dbf977SAlex Elder bool command) 1909650d1603SAlex Elder { 1910650d1603SAlex Elder struct gsi_channel *channel; 1911650d1603SAlex Elder u32 tre_count; 1912650d1603SAlex Elder int ret; 1913650d1603SAlex Elder 1914650d1603SAlex Elder if (!gsi_channel_data_valid(gsi, data)) 1915650d1603SAlex Elder return -EINVAL; 1916650d1603SAlex Elder 1917650d1603SAlex Elder /* Worst case we need an event for every outstanding TRE */ 1918650d1603SAlex Elder if (data->channel.tre_count > data->channel.event_count) { 1919650d1603SAlex Elder tre_count = data->channel.event_count; 19200721999fSAlex Elder dev_warn(gsi->dev, "channel %u limited to %u TREs\n", 19210721999fSAlex Elder data->channel_id, tre_count); 1922650d1603SAlex Elder } else { 1923650d1603SAlex Elder tre_count = data->channel.tre_count; 1924650d1603SAlex Elder } 1925650d1603SAlex Elder 1926650d1603SAlex Elder channel = &gsi->channel[data->channel_id]; 1927650d1603SAlex Elder memset(channel, 0, sizeof(*channel)); 1928650d1603SAlex Elder 1929650d1603SAlex Elder channel->gsi = gsi; 1930650d1603SAlex Elder channel->toward_ipa = data->toward_ipa; 1931650d1603SAlex Elder channel->command = command; 1932650d1603SAlex Elder channel->tlv_count = data->channel.tlv_count; 1933650d1603SAlex Elder channel->tre_count = tre_count; 1934650d1603SAlex Elder channel->event_count = data->channel.event_count; 1935650d1603SAlex Elder init_completion(&channel->completion); 1936650d1603SAlex Elder 1937650d1603SAlex Elder ret = gsi_channel_evt_ring_init(channel); 1938650d1603SAlex Elder if (ret) 1939650d1603SAlex Elder goto err_clear_gsi; 1940650d1603SAlex Elder 1941650d1603SAlex Elder ret = gsi_ring_alloc(gsi, &channel->tre_ring, data->channel.tre_count); 1942650d1603SAlex Elder if (ret) { 1943650d1603SAlex Elder dev_err(gsi->dev, "error %d allocating channel %u ring\n", 1944650d1603SAlex Elder ret, data->channel_id); 1945650d1603SAlex Elder goto err_channel_evt_ring_exit; 1946650d1603SAlex Elder } 1947650d1603SAlex Elder 1948650d1603SAlex Elder ret = gsi_channel_trans_init(gsi, data->channel_id); 1949650d1603SAlex Elder if (ret) 1950650d1603SAlex Elder goto err_ring_free; 1951650d1603SAlex Elder 1952650d1603SAlex Elder if (command) { 1953650d1603SAlex Elder u32 tre_max = gsi_channel_tre_max(gsi, data->channel_id); 1954650d1603SAlex Elder 1955650d1603SAlex Elder ret = ipa_cmd_pool_init(channel, tre_max); 1956650d1603SAlex Elder } 1957650d1603SAlex Elder if (!ret) 1958650d1603SAlex Elder return 0; /* Success! */ 1959650d1603SAlex Elder 1960650d1603SAlex Elder gsi_channel_trans_exit(channel); 1961650d1603SAlex Elder err_ring_free: 1962650d1603SAlex Elder gsi_ring_free(gsi, &channel->tre_ring); 1963650d1603SAlex Elder err_channel_evt_ring_exit: 1964650d1603SAlex Elder gsi_channel_evt_ring_exit(channel); 1965650d1603SAlex Elder err_clear_gsi: 1966650d1603SAlex Elder channel->gsi = NULL; /* Mark it not (fully) initialized */ 1967650d1603SAlex Elder 1968650d1603SAlex Elder return ret; 1969650d1603SAlex Elder } 1970650d1603SAlex Elder 1971650d1603SAlex Elder /* Inverse of gsi_channel_init_one() */ 1972650d1603SAlex Elder static void gsi_channel_exit_one(struct gsi_channel *channel) 1973650d1603SAlex Elder { 1974650d1603SAlex Elder if (!channel->gsi) 1975650d1603SAlex Elder return; /* Ignore uninitialized channels */ 1976650d1603SAlex Elder 1977650d1603SAlex Elder if (channel->command) 1978650d1603SAlex Elder ipa_cmd_pool_exit(channel); 1979650d1603SAlex Elder gsi_channel_trans_exit(channel); 1980650d1603SAlex Elder gsi_ring_free(channel->gsi, &channel->tre_ring); 1981650d1603SAlex Elder gsi_channel_evt_ring_exit(channel); 1982650d1603SAlex Elder } 1983650d1603SAlex Elder 1984650d1603SAlex Elder /* Init function for channels */ 198514dbf977SAlex Elder static int gsi_channel_init(struct gsi *gsi, u32 count, 198656dfe8deSAlex Elder const struct ipa_gsi_endpoint_data *data) 1987650d1603SAlex Elder { 198856dfe8deSAlex Elder bool modem_alloc; 1989650d1603SAlex Elder int ret = 0; 1990650d1603SAlex Elder u32 i; 1991650d1603SAlex Elder 199256dfe8deSAlex Elder /* IPA v4.2 requires the AP to allocate channels for the modem */ 199356dfe8deSAlex Elder modem_alloc = gsi->version == IPA_VERSION_4_2; 199456dfe8deSAlex Elder 1995650d1603SAlex Elder gsi_evt_ring_init(gsi); 1996650d1603SAlex Elder 1997650d1603SAlex Elder /* The endpoint data array is indexed by endpoint name */ 1998650d1603SAlex Elder for (i = 0; i < count; i++) { 1999650d1603SAlex Elder bool command = i == IPA_ENDPOINT_AP_COMMAND_TX; 2000650d1603SAlex Elder 2001650d1603SAlex Elder if (ipa_gsi_endpoint_data_empty(&data[i])) 2002650d1603SAlex Elder continue; /* Skip over empty slots */ 2003650d1603SAlex Elder 2004650d1603SAlex Elder /* Mark modem channels to be allocated (hardware workaround) */ 2005650d1603SAlex Elder if (data[i].ee_id == GSI_EE_MODEM) { 2006650d1603SAlex Elder if (modem_alloc) 2007650d1603SAlex Elder gsi->modem_channel_bitmap |= 2008650d1603SAlex Elder BIT(data[i].channel_id); 2009650d1603SAlex Elder continue; 2010650d1603SAlex Elder } 2011650d1603SAlex Elder 201214dbf977SAlex Elder ret = gsi_channel_init_one(gsi, &data[i], command); 2013650d1603SAlex Elder if (ret) 2014650d1603SAlex Elder goto err_unwind; 2015650d1603SAlex Elder } 2016650d1603SAlex Elder 2017650d1603SAlex Elder return ret; 2018650d1603SAlex Elder 2019650d1603SAlex Elder err_unwind: 2020650d1603SAlex Elder while (i--) { 2021650d1603SAlex Elder if (ipa_gsi_endpoint_data_empty(&data[i])) 2022650d1603SAlex Elder continue; 2023650d1603SAlex Elder if (modem_alloc && data[i].ee_id == GSI_EE_MODEM) { 2024650d1603SAlex Elder gsi->modem_channel_bitmap &= ~BIT(data[i].channel_id); 2025650d1603SAlex Elder continue; 2026650d1603SAlex Elder } 2027650d1603SAlex Elder gsi_channel_exit_one(&gsi->channel[data->channel_id]); 2028650d1603SAlex Elder } 2029650d1603SAlex Elder gsi_evt_ring_exit(gsi); 2030650d1603SAlex Elder 2031650d1603SAlex Elder return ret; 2032650d1603SAlex Elder } 2033650d1603SAlex Elder 2034650d1603SAlex Elder /* Inverse of gsi_channel_init() */ 2035650d1603SAlex Elder static void gsi_channel_exit(struct gsi *gsi) 2036650d1603SAlex Elder { 2037650d1603SAlex Elder u32 channel_id = GSI_CHANNEL_COUNT_MAX - 1; 2038650d1603SAlex Elder 2039650d1603SAlex Elder do 2040650d1603SAlex Elder gsi_channel_exit_one(&gsi->channel[channel_id]); 2041650d1603SAlex Elder while (channel_id--); 2042650d1603SAlex Elder gsi->modem_channel_bitmap = 0; 2043650d1603SAlex Elder 2044650d1603SAlex Elder gsi_evt_ring_exit(gsi); 2045650d1603SAlex Elder } 2046650d1603SAlex Elder 2047650d1603SAlex Elder /* Init function for GSI. GSI hardware does not need to be "ready" */ 20481d0c09deSAlex Elder int gsi_init(struct gsi *gsi, struct platform_device *pdev, 20491d0c09deSAlex Elder enum ipa_version version, u32 count, 20501d0c09deSAlex Elder const struct ipa_gsi_endpoint_data *data) 2051650d1603SAlex Elder { 20528463488aSAlex Elder struct device *dev = &pdev->dev; 2053650d1603SAlex Elder struct resource *res; 2054650d1603SAlex Elder resource_size_t size; 2055650d1603SAlex Elder int ret; 2056650d1603SAlex Elder 2057650d1603SAlex Elder gsi_validate_build(); 2058650d1603SAlex Elder 20598463488aSAlex Elder gsi->dev = dev; 206014dbf977SAlex Elder gsi->version = version; 2061650d1603SAlex Elder 2062650d1603SAlex Elder /* The GSI layer performs NAPI on all endpoints. NAPI requires a 2063650d1603SAlex Elder * network device structure, but the GSI layer does not have one, 2064650d1603SAlex Elder * so we must create a dummy network device for this purpose. 2065650d1603SAlex Elder */ 2066650d1603SAlex Elder init_dummy_netdev(&gsi->dummy_dev); 2067650d1603SAlex Elder 2068650d1603SAlex Elder /* Get GSI memory range and map it */ 2069650d1603SAlex Elder res = platform_get_resource_byname(pdev, IORESOURCE_MEM, "gsi"); 2070650d1603SAlex Elder if (!res) { 20718463488aSAlex Elder dev_err(dev, "DT error getting \"gsi\" memory property\n"); 20720b8d6761SAlex Elder return -ENODEV; 2073650d1603SAlex Elder } 2074650d1603SAlex Elder 2075650d1603SAlex Elder size = resource_size(res); 2076650d1603SAlex Elder if (res->start > U32_MAX || size > U32_MAX - res->start) { 20778463488aSAlex Elder dev_err(dev, "DT memory resource \"gsi\" out of range\n"); 20780b8d6761SAlex Elder return -EINVAL; 2079650d1603SAlex Elder } 2080650d1603SAlex Elder 2081650d1603SAlex Elder gsi->virt = ioremap(res->start, size); 2082650d1603SAlex Elder if (!gsi->virt) { 20838463488aSAlex Elder dev_err(dev, "unable to remap \"gsi\" memory\n"); 20840b8d6761SAlex Elder return -ENOMEM; 2085650d1603SAlex Elder } 2086650d1603SAlex Elder 20870b8d6761SAlex Elder init_completion(&gsi->completion); 20880b8d6761SAlex Elder 20890b8d6761SAlex Elder ret = gsi_irq_init(gsi, pdev); 2090650d1603SAlex Elder if (ret) 2091650d1603SAlex Elder goto err_iounmap; 2092650d1603SAlex Elder 20930b8d6761SAlex Elder ret = gsi_channel_init(gsi, count, data); 20940b8d6761SAlex Elder if (ret) 20950b8d6761SAlex Elder goto err_irq_exit; 20960b8d6761SAlex Elder 2097650d1603SAlex Elder mutex_init(&gsi->mutex); 2098650d1603SAlex Elder 2099650d1603SAlex Elder return 0; 2100650d1603SAlex Elder 21010b8d6761SAlex Elder err_irq_exit: 21020b8d6761SAlex Elder gsi_irq_exit(gsi); 2103650d1603SAlex Elder err_iounmap: 2104650d1603SAlex Elder iounmap(gsi->virt); 2105650d1603SAlex Elder 2106650d1603SAlex Elder return ret; 2107650d1603SAlex Elder } 2108650d1603SAlex Elder 2109650d1603SAlex Elder /* Inverse of gsi_init() */ 2110650d1603SAlex Elder void gsi_exit(struct gsi *gsi) 2111650d1603SAlex Elder { 2112650d1603SAlex Elder mutex_destroy(&gsi->mutex); 2113650d1603SAlex Elder gsi_channel_exit(gsi); 21140b8d6761SAlex Elder gsi_irq_exit(gsi); 2115650d1603SAlex Elder iounmap(gsi->virt); 2116650d1603SAlex Elder } 2117650d1603SAlex Elder 2118650d1603SAlex Elder /* The maximum number of outstanding TREs on a channel. This limits 2119650d1603SAlex Elder * a channel's maximum number of transactions outstanding (worst case 2120650d1603SAlex Elder * is one TRE per transaction). 2121650d1603SAlex Elder * 2122650d1603SAlex Elder * The absolute limit is the number of TREs in the channel's TRE ring, 2123650d1603SAlex Elder * and in theory we should be able use all of them. But in practice, 2124650d1603SAlex Elder * doing that led to the hardware reporting exhaustion of event ring 2125650d1603SAlex Elder * slots for writing completion information. So the hardware limit 2126650d1603SAlex Elder * would be (tre_count - 1). 2127650d1603SAlex Elder * 2128650d1603SAlex Elder * We reduce it a bit further though. Transaction resource pools are 2129650d1603SAlex Elder * sized to be a little larger than this maximum, to allow resource 2130650d1603SAlex Elder * allocations to always be contiguous. The number of entries in a 2131650d1603SAlex Elder * TRE ring buffer is a power of 2, and the extra resources in a pool 2132650d1603SAlex Elder * tends to nearly double the memory allocated for it. Reducing the 2133650d1603SAlex Elder * maximum number of outstanding TREs allows the number of entries in 2134650d1603SAlex Elder * a pool to avoid crossing that power-of-2 boundary, and this can 2135650d1603SAlex Elder * substantially reduce pool memory requirements. The number we 2136650d1603SAlex Elder * reduce it by matches the number added in gsi_trans_pool_init(). 2137650d1603SAlex Elder */ 2138650d1603SAlex Elder u32 gsi_channel_tre_max(struct gsi *gsi, u32 channel_id) 2139650d1603SAlex Elder { 2140650d1603SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 2141650d1603SAlex Elder 2142650d1603SAlex Elder /* Hardware limit is channel->tre_count - 1 */ 2143650d1603SAlex Elder return channel->tre_count - (channel->tlv_count - 1); 2144650d1603SAlex Elder } 2145650d1603SAlex Elder 2146650d1603SAlex Elder /* Returns the maximum number of TREs in a single transaction for a channel */ 2147650d1603SAlex Elder u32 gsi_channel_trans_tre_max(struct gsi *gsi, u32 channel_id) 2148650d1603SAlex Elder { 2149650d1603SAlex Elder struct gsi_channel *channel = &gsi->channel[channel_id]; 2150650d1603SAlex Elder 2151650d1603SAlex Elder return channel->tlv_count; 2152650d1603SAlex Elder } 2153