19fff0425STomas Winkler // SPDX-License-Identifier: GPL-2.0
232e2b59fSTomas Winkler /*
395953618SAlexander Usyskin * Copyright (c) 2013-2022, Intel Corporation. All rights reserved.
432e2b59fSTomas Winkler * Intel Management Engine Interface (Intel MEI) Linux driver
532e2b59fSTomas Winkler */
632e2b59fSTomas Winkler
732e2b59fSTomas Winkler #include <linux/pci.h>
832e2b59fSTomas Winkler #include <linux/jiffies.h>
9fe292283STomas Winkler #include <linux/ktime.h>
1032e2b59fSTomas Winkler #include <linux/delay.h>
1132e2b59fSTomas Winkler #include <linux/kthread.h>
124a8efd4aSTomas Winkler #include <linux/interrupt.h>
1377537ad2SAlexander Usyskin #include <linux/pm_runtime.h>
1432e2b59fSTomas Winkler
1532e2b59fSTomas Winkler #include <linux/mei.h>
1632e2b59fSTomas Winkler
1732e2b59fSTomas Winkler #include "mei_dev.h"
1832e2b59fSTomas Winkler #include "hw-txe.h"
1932e2b59fSTomas Winkler #include "client.h"
2032e2b59fSTomas Winkler #include "hbm.h"
2132e2b59fSTomas Winkler
22a96c5482STomas Winkler #include "mei-trace.h"
23a96c5482STomas Winkler
248c8d964cSTomas Winkler #define TXE_HBUF_DEPTH (PAYLOAD_SIZE / MEI_SLOT_SIZE)
25a96c5482STomas Winkler
2632e2b59fSTomas Winkler /**
27ce23139cSAlexander Usyskin * mei_txe_reg_read - Reads 32bit data from the txe device
2832e2b59fSTomas Winkler *
2932e2b59fSTomas Winkler * @base_addr: registers base address
3032e2b59fSTomas Winkler * @offset: register offset
3132e2b59fSTomas Winkler *
32ce23139cSAlexander Usyskin * Return: register value
3332e2b59fSTomas Winkler */
mei_txe_reg_read(void __iomem * base_addr,unsigned long offset)3432e2b59fSTomas Winkler static inline u32 mei_txe_reg_read(void __iomem *base_addr,
3532e2b59fSTomas Winkler unsigned long offset)
3632e2b59fSTomas Winkler {
3732e2b59fSTomas Winkler return ioread32(base_addr + offset);
3832e2b59fSTomas Winkler }
3932e2b59fSTomas Winkler
4032e2b59fSTomas Winkler /**
41ce23139cSAlexander Usyskin * mei_txe_reg_write - Writes 32bit data to the txe device
4232e2b59fSTomas Winkler *
4332e2b59fSTomas Winkler * @base_addr: registers base address
4432e2b59fSTomas Winkler * @offset: register offset
4532e2b59fSTomas Winkler * @value: the value to write
4632e2b59fSTomas Winkler */
mei_txe_reg_write(void __iomem * base_addr,unsigned long offset,u32 value)4732e2b59fSTomas Winkler static inline void mei_txe_reg_write(void __iomem *base_addr,
4832e2b59fSTomas Winkler unsigned long offset, u32 value)
4932e2b59fSTomas Winkler {
5032e2b59fSTomas Winkler iowrite32(value, base_addr + offset);
5132e2b59fSTomas Winkler }
5232e2b59fSTomas Winkler
5332e2b59fSTomas Winkler /**
5432e2b59fSTomas Winkler * mei_txe_sec_reg_read_silent - Reads 32bit data from the SeC BAR
5532e2b59fSTomas Winkler *
56ce23139cSAlexander Usyskin * @hw: the txe hardware structure
5732e2b59fSTomas Winkler * @offset: register offset
5832e2b59fSTomas Winkler *
5932e2b59fSTomas Winkler * Doesn't check for aliveness while Reads 32bit data from the SeC BAR
60ce23139cSAlexander Usyskin *
61ce23139cSAlexander Usyskin * Return: register value
6232e2b59fSTomas Winkler */
mei_txe_sec_reg_read_silent(struct mei_txe_hw * hw,unsigned long offset)6332e2b59fSTomas Winkler static inline u32 mei_txe_sec_reg_read_silent(struct mei_txe_hw *hw,
6432e2b59fSTomas Winkler unsigned long offset)
6532e2b59fSTomas Winkler {
6632e2b59fSTomas Winkler return mei_txe_reg_read(hw->mem_addr[SEC_BAR], offset);
6732e2b59fSTomas Winkler }
6832e2b59fSTomas Winkler
6932e2b59fSTomas Winkler /**
7032e2b59fSTomas Winkler * mei_txe_sec_reg_read - Reads 32bit data from the SeC BAR
7132e2b59fSTomas Winkler *
72ce23139cSAlexander Usyskin * @hw: the txe hardware structure
7332e2b59fSTomas Winkler * @offset: register offset
7432e2b59fSTomas Winkler *
7532e2b59fSTomas Winkler * Reads 32bit data from the SeC BAR and shout loud if aliveness is not set
76ce23139cSAlexander Usyskin *
77ce23139cSAlexander Usyskin * Return: register value
7832e2b59fSTomas Winkler */
mei_txe_sec_reg_read(struct mei_txe_hw * hw,unsigned long offset)7932e2b59fSTomas Winkler static inline u32 mei_txe_sec_reg_read(struct mei_txe_hw *hw,
8032e2b59fSTomas Winkler unsigned long offset)
8132e2b59fSTomas Winkler {
8232e2b59fSTomas Winkler WARN(!hw->aliveness, "sec read: aliveness not asserted\n");
8332e2b59fSTomas Winkler return mei_txe_sec_reg_read_silent(hw, offset);
8432e2b59fSTomas Winkler }
8532e2b59fSTomas Winkler /**
8632e2b59fSTomas Winkler * mei_txe_sec_reg_write_silent - Writes 32bit data to the SeC BAR
8732e2b59fSTomas Winkler * doesn't check for aliveness
8832e2b59fSTomas Winkler *
89a8605ea2SAlexander Usyskin * @hw: the txe hardware structure
9032e2b59fSTomas Winkler * @offset: register offset
9132e2b59fSTomas Winkler * @value: value to write
9232e2b59fSTomas Winkler *
9332e2b59fSTomas Winkler * Doesn't check for aliveness while writes 32bit data from to the SeC BAR
9432e2b59fSTomas Winkler */
mei_txe_sec_reg_write_silent(struct mei_txe_hw * hw,unsigned long offset,u32 value)9532e2b59fSTomas Winkler static inline void mei_txe_sec_reg_write_silent(struct mei_txe_hw *hw,
9632e2b59fSTomas Winkler unsigned long offset, u32 value)
9732e2b59fSTomas Winkler {
9832e2b59fSTomas Winkler mei_txe_reg_write(hw->mem_addr[SEC_BAR], offset, value);
9932e2b59fSTomas Winkler }
10032e2b59fSTomas Winkler
10132e2b59fSTomas Winkler /**
10232e2b59fSTomas Winkler * mei_txe_sec_reg_write - Writes 32bit data to the SeC BAR
10332e2b59fSTomas Winkler *
104a8605ea2SAlexander Usyskin * @hw: the txe hardware structure
10532e2b59fSTomas Winkler * @offset: register offset
10632e2b59fSTomas Winkler * @value: value to write
10732e2b59fSTomas Winkler *
10832e2b59fSTomas Winkler * Writes 32bit data from the SeC BAR and shout loud if aliveness is not set
10932e2b59fSTomas Winkler */
mei_txe_sec_reg_write(struct mei_txe_hw * hw,unsigned long offset,u32 value)11032e2b59fSTomas Winkler static inline void mei_txe_sec_reg_write(struct mei_txe_hw *hw,
11132e2b59fSTomas Winkler unsigned long offset, u32 value)
11232e2b59fSTomas Winkler {
11332e2b59fSTomas Winkler WARN(!hw->aliveness, "sec write: aliveness not asserted\n");
11432e2b59fSTomas Winkler mei_txe_sec_reg_write_silent(hw, offset, value);
11532e2b59fSTomas Winkler }
11632e2b59fSTomas Winkler /**
11732e2b59fSTomas Winkler * mei_txe_br_reg_read - Reads 32bit data from the Bridge BAR
11832e2b59fSTomas Winkler *
119ce23139cSAlexander Usyskin * @hw: the txe hardware structure
12032e2b59fSTomas Winkler * @offset: offset from which to read the data
12132e2b59fSTomas Winkler *
122ce23139cSAlexander Usyskin * Return: the byte read.
12332e2b59fSTomas Winkler */
mei_txe_br_reg_read(struct mei_txe_hw * hw,unsigned long offset)12432e2b59fSTomas Winkler static inline u32 mei_txe_br_reg_read(struct mei_txe_hw *hw,
12532e2b59fSTomas Winkler unsigned long offset)
12632e2b59fSTomas Winkler {
12732e2b59fSTomas Winkler return mei_txe_reg_read(hw->mem_addr[BRIDGE_BAR], offset);
12832e2b59fSTomas Winkler }
12932e2b59fSTomas Winkler
13032e2b59fSTomas Winkler /**
13132e2b59fSTomas Winkler * mei_txe_br_reg_write - Writes 32bit data to the Bridge BAR
13232e2b59fSTomas Winkler *
133a8605ea2SAlexander Usyskin * @hw: the txe hardware structure
13432e2b59fSTomas Winkler * @offset: offset from which to write the data
13532e2b59fSTomas Winkler * @value: the byte to write
13632e2b59fSTomas Winkler */
mei_txe_br_reg_write(struct mei_txe_hw * hw,unsigned long offset,u32 value)13732e2b59fSTomas Winkler static inline void mei_txe_br_reg_write(struct mei_txe_hw *hw,
13832e2b59fSTomas Winkler unsigned long offset, u32 value)
13932e2b59fSTomas Winkler {
14032e2b59fSTomas Winkler mei_txe_reg_write(hw->mem_addr[BRIDGE_BAR], offset, value);
14132e2b59fSTomas Winkler }
14232e2b59fSTomas Winkler
14332e2b59fSTomas Winkler /**
14432e2b59fSTomas Winkler * mei_txe_aliveness_set - request for aliveness change
14532e2b59fSTomas Winkler *
14632e2b59fSTomas Winkler * @dev: the device structure
14732e2b59fSTomas Winkler * @req: requested aliveness value
14832e2b59fSTomas Winkler *
14932e2b59fSTomas Winkler * Request for aliveness change and returns true if the change is
15032e2b59fSTomas Winkler * really needed and false if aliveness is already
15132e2b59fSTomas Winkler * in the requested state
152ce23139cSAlexander Usyskin *
153ce23139cSAlexander Usyskin * Locking: called under "dev->device_lock" lock
154ce23139cSAlexander Usyskin *
155ce23139cSAlexander Usyskin * Return: true if request was send
15632e2b59fSTomas Winkler */
mei_txe_aliveness_set(struct mei_device * dev,u32 req)15732e2b59fSTomas Winkler static bool mei_txe_aliveness_set(struct mei_device *dev, u32 req)
15832e2b59fSTomas Winkler {
15932e2b59fSTomas Winkler
16032e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
16132e2b59fSTomas Winkler bool do_req = hw->aliveness != req;
16232e2b59fSTomas Winkler
1632bf94cabSTomas Winkler dev_dbg(dev->dev, "Aliveness current=%d request=%d\n",
16432e2b59fSTomas Winkler hw->aliveness, req);
16532e2b59fSTomas Winkler if (do_req) {
166964a2331STomas Winkler dev->pg_event = MEI_PG_EVENT_WAIT;
16732e2b59fSTomas Winkler mei_txe_br_reg_write(hw, SICR_HOST_ALIVENESS_REQ_REG, req);
16832e2b59fSTomas Winkler }
16932e2b59fSTomas Winkler return do_req;
17032e2b59fSTomas Winkler }
17132e2b59fSTomas Winkler
17232e2b59fSTomas Winkler
17332e2b59fSTomas Winkler /**
17432e2b59fSTomas Winkler * mei_txe_aliveness_req_get - get aliveness requested register value
17532e2b59fSTomas Winkler *
17632e2b59fSTomas Winkler * @dev: the device structure
17732e2b59fSTomas Winkler *
17832e2b59fSTomas Winkler * Extract HICR_HOST_ALIVENESS_RESP_ACK bit from
179*4b25cf09SJilin Yuan * HICR_HOST_ALIVENESS_REQ register value
180ce23139cSAlexander Usyskin *
181ce23139cSAlexander Usyskin * Return: SICR_HOST_ALIVENESS_REQ_REQUESTED bit value
18232e2b59fSTomas Winkler */
mei_txe_aliveness_req_get(struct mei_device * dev)18332e2b59fSTomas Winkler static u32 mei_txe_aliveness_req_get(struct mei_device *dev)
18432e2b59fSTomas Winkler {
18532e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
18632e2b59fSTomas Winkler u32 reg;
18792db1555STomas Winkler
18832e2b59fSTomas Winkler reg = mei_txe_br_reg_read(hw, SICR_HOST_ALIVENESS_REQ_REG);
18932e2b59fSTomas Winkler return reg & SICR_HOST_ALIVENESS_REQ_REQUESTED;
19032e2b59fSTomas Winkler }
19132e2b59fSTomas Winkler
19232e2b59fSTomas Winkler /**
19332e2b59fSTomas Winkler * mei_txe_aliveness_get - get aliveness response register value
194ce23139cSAlexander Usyskin *
19532e2b59fSTomas Winkler * @dev: the device structure
19632e2b59fSTomas Winkler *
197ce23139cSAlexander Usyskin * Return: HICR_HOST_ALIVENESS_RESP_ACK bit from HICR_HOST_ALIVENESS_RESP
198ce23139cSAlexander Usyskin * register
19932e2b59fSTomas Winkler */
mei_txe_aliveness_get(struct mei_device * dev)20032e2b59fSTomas Winkler static u32 mei_txe_aliveness_get(struct mei_device *dev)
20132e2b59fSTomas Winkler {
20232e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
20332e2b59fSTomas Winkler u32 reg;
20492db1555STomas Winkler
20532e2b59fSTomas Winkler reg = mei_txe_br_reg_read(hw, HICR_HOST_ALIVENESS_RESP_REG);
20632e2b59fSTomas Winkler return reg & HICR_HOST_ALIVENESS_RESP_ACK;
20732e2b59fSTomas Winkler }
20832e2b59fSTomas Winkler
20932e2b59fSTomas Winkler /**
21032e2b59fSTomas Winkler * mei_txe_aliveness_poll - waits for aliveness to settle
21132e2b59fSTomas Winkler *
21232e2b59fSTomas Winkler * @dev: the device structure
21332e2b59fSTomas Winkler * @expected: expected aliveness value
21432e2b59fSTomas Winkler *
21532e2b59fSTomas Winkler * Polls for HICR_HOST_ALIVENESS_RESP.ALIVENESS_RESP to be set
216a8605ea2SAlexander Usyskin *
217fe292283STomas Winkler * Return: 0 if the expected value was received, -ETIME otherwise
21832e2b59fSTomas Winkler */
mei_txe_aliveness_poll(struct mei_device * dev,u32 expected)21932e2b59fSTomas Winkler static int mei_txe_aliveness_poll(struct mei_device *dev, u32 expected)
22032e2b59fSTomas Winkler {
22132e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
222fe292283STomas Winkler ktime_t stop, start;
22332e2b59fSTomas Winkler
224fe292283STomas Winkler start = ktime_get();
225fe292283STomas Winkler stop = ktime_add(start, ms_to_ktime(SEC_ALIVENESS_WAIT_TIMEOUT));
22632e2b59fSTomas Winkler do {
22732e2b59fSTomas Winkler hw->aliveness = mei_txe_aliveness_get(dev);
22832e2b59fSTomas Winkler if (hw->aliveness == expected) {
229964a2331STomas Winkler dev->pg_event = MEI_PG_EVENT_IDLE;
230fe292283STomas Winkler dev_dbg(dev->dev, "aliveness settled after %lld usecs\n",
231fe292283STomas Winkler ktime_to_us(ktime_sub(ktime_get(), start)));
232fe292283STomas Winkler return 0;
23332e2b59fSTomas Winkler }
234fe292283STomas Winkler usleep_range(20, 50);
235fe292283STomas Winkler } while (ktime_before(ktime_get(), stop));
23632e2b59fSTomas Winkler
237964a2331STomas Winkler dev->pg_event = MEI_PG_EVENT_IDLE;
2382bf94cabSTomas Winkler dev_err(dev->dev, "aliveness timed out\n");
23932e2b59fSTomas Winkler return -ETIME;
24032e2b59fSTomas Winkler }
24132e2b59fSTomas Winkler
24232e2b59fSTomas Winkler /**
24332e2b59fSTomas Winkler * mei_txe_aliveness_wait - waits for aliveness to settle
24432e2b59fSTomas Winkler *
24532e2b59fSTomas Winkler * @dev: the device structure
24632e2b59fSTomas Winkler * @expected: expected aliveness value
24732e2b59fSTomas Winkler *
24832e2b59fSTomas Winkler * Waits for HICR_HOST_ALIVENESS_RESP.ALIVENESS_RESP to be set
249a8605ea2SAlexander Usyskin *
250a8605ea2SAlexander Usyskin * Return: 0 on success and < 0 otherwise
25132e2b59fSTomas Winkler */
mei_txe_aliveness_wait(struct mei_device * dev,u32 expected)25232e2b59fSTomas Winkler static int mei_txe_aliveness_wait(struct mei_device *dev, u32 expected)
25332e2b59fSTomas Winkler {
25432e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
25532e2b59fSTomas Winkler const unsigned long timeout =
25632e2b59fSTomas Winkler msecs_to_jiffies(SEC_ALIVENESS_WAIT_TIMEOUT);
25732e2b59fSTomas Winkler long err;
25832e2b59fSTomas Winkler int ret;
25932e2b59fSTomas Winkler
26032e2b59fSTomas Winkler hw->aliveness = mei_txe_aliveness_get(dev);
26132e2b59fSTomas Winkler if (hw->aliveness == expected)
26232e2b59fSTomas Winkler return 0;
26332e2b59fSTomas Winkler
26432e2b59fSTomas Winkler mutex_unlock(&dev->device_lock);
265964a2331STomas Winkler err = wait_event_timeout(hw->wait_aliveness_resp,
266964a2331STomas Winkler dev->pg_event == MEI_PG_EVENT_RECEIVED, timeout);
26732e2b59fSTomas Winkler mutex_lock(&dev->device_lock);
26832e2b59fSTomas Winkler
26932e2b59fSTomas Winkler hw->aliveness = mei_txe_aliveness_get(dev);
27032e2b59fSTomas Winkler ret = hw->aliveness == expected ? 0 : -ETIME;
27132e2b59fSTomas Winkler
27232e2b59fSTomas Winkler if (ret)
2732bf94cabSTomas Winkler dev_warn(dev->dev, "aliveness timed out = %ld aliveness = %d event = %d\n",
274964a2331STomas Winkler err, hw->aliveness, dev->pg_event);
27532e2b59fSTomas Winkler else
2762bf94cabSTomas Winkler dev_dbg(dev->dev, "aliveness settled after = %d msec aliveness = %d event = %d\n",
277964a2331STomas Winkler jiffies_to_msecs(timeout - err),
278964a2331STomas Winkler hw->aliveness, dev->pg_event);
279964a2331STomas Winkler
280964a2331STomas Winkler dev->pg_event = MEI_PG_EVENT_IDLE;
28132e2b59fSTomas Winkler return ret;
28232e2b59fSTomas Winkler }
28332e2b59fSTomas Winkler
28432e2b59fSTomas Winkler /**
28532e2b59fSTomas Winkler * mei_txe_aliveness_set_sync - sets an wait for aliveness to complete
28632e2b59fSTomas Winkler *
28732e2b59fSTomas Winkler * @dev: the device structure
288ce23139cSAlexander Usyskin * @req: requested aliveness value
28932e2b59fSTomas Winkler *
290a8605ea2SAlexander Usyskin * Return: 0 on success and < 0 otherwise
29132e2b59fSTomas Winkler */
mei_txe_aliveness_set_sync(struct mei_device * dev,u32 req)29232e2b59fSTomas Winkler int mei_txe_aliveness_set_sync(struct mei_device *dev, u32 req)
29332e2b59fSTomas Winkler {
29432e2b59fSTomas Winkler if (mei_txe_aliveness_set(dev, req))
29532e2b59fSTomas Winkler return mei_txe_aliveness_wait(dev, req);
29632e2b59fSTomas Winkler return 0;
29732e2b59fSTomas Winkler }
29832e2b59fSTomas Winkler
29932e2b59fSTomas Winkler /**
3003dc196eaSAlexander Usyskin * mei_txe_pg_in_transition - is device now in pg transition
3013dc196eaSAlexander Usyskin *
3023dc196eaSAlexander Usyskin * @dev: the device structure
3033dc196eaSAlexander Usyskin *
3043dc196eaSAlexander Usyskin * Return: true if in pg transition, false otherwise
3053dc196eaSAlexander Usyskin */
mei_txe_pg_in_transition(struct mei_device * dev)3063dc196eaSAlexander Usyskin static bool mei_txe_pg_in_transition(struct mei_device *dev)
3073dc196eaSAlexander Usyskin {
3083dc196eaSAlexander Usyskin return dev->pg_event == MEI_PG_EVENT_WAIT;
3093dc196eaSAlexander Usyskin }
3103dc196eaSAlexander Usyskin
3113dc196eaSAlexander Usyskin /**
312ee7e5afdSTomas Winkler * mei_txe_pg_is_enabled - detect if PG is supported by HW
313ee7e5afdSTomas Winkler *
314ee7e5afdSTomas Winkler * @dev: the device structure
315ee7e5afdSTomas Winkler *
316a8605ea2SAlexander Usyskin * Return: true is pg supported, false otherwise
317ee7e5afdSTomas Winkler */
mei_txe_pg_is_enabled(struct mei_device * dev)318ee7e5afdSTomas Winkler static bool mei_txe_pg_is_enabled(struct mei_device *dev)
319ee7e5afdSTomas Winkler {
320ee7e5afdSTomas Winkler return true;
321ee7e5afdSTomas Winkler }
322ee7e5afdSTomas Winkler
323ee7e5afdSTomas Winkler /**
324964a2331STomas Winkler * mei_txe_pg_state - translate aliveness register value
325964a2331STomas Winkler * to the mei power gating state
326964a2331STomas Winkler *
327964a2331STomas Winkler * @dev: the device structure
328964a2331STomas Winkler *
329a8605ea2SAlexander Usyskin * Return: MEI_PG_OFF if aliveness is on and MEI_PG_ON otherwise
330964a2331STomas Winkler */
mei_txe_pg_state(struct mei_device * dev)331964a2331STomas Winkler static inline enum mei_pg_state mei_txe_pg_state(struct mei_device *dev)
332964a2331STomas Winkler {
333964a2331STomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
33492db1555STomas Winkler
335964a2331STomas Winkler return hw->aliveness ? MEI_PG_OFF : MEI_PG_ON;
336964a2331STomas Winkler }
337964a2331STomas Winkler
338964a2331STomas Winkler /**
33932e2b59fSTomas Winkler * mei_txe_input_ready_interrupt_enable - sets the Input Ready Interrupt
34032e2b59fSTomas Winkler *
34132e2b59fSTomas Winkler * @dev: the device structure
34232e2b59fSTomas Winkler */
mei_txe_input_ready_interrupt_enable(struct mei_device * dev)34332e2b59fSTomas Winkler static void mei_txe_input_ready_interrupt_enable(struct mei_device *dev)
34432e2b59fSTomas Winkler {
34532e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
34632e2b59fSTomas Winkler u32 hintmsk;
34732e2b59fSTomas Winkler /* Enable the SEC_IPC_HOST_INT_MASK_IN_RDY interrupt */
34832e2b59fSTomas Winkler hintmsk = mei_txe_sec_reg_read(hw, SEC_IPC_HOST_INT_MASK_REG);
34932e2b59fSTomas Winkler hintmsk |= SEC_IPC_HOST_INT_MASK_IN_RDY;
35032e2b59fSTomas Winkler mei_txe_sec_reg_write(hw, SEC_IPC_HOST_INT_MASK_REG, hintmsk);
35132e2b59fSTomas Winkler }
35232e2b59fSTomas Winkler
35332e2b59fSTomas Winkler /**
354a8605ea2SAlexander Usyskin * mei_txe_input_doorbell_set - sets bit 0 in
355a8605ea2SAlexander Usyskin * SEC_IPC_INPUT_DOORBELL.IPC_INPUT_DOORBELL.
356a8605ea2SAlexander Usyskin *
357a8605ea2SAlexander Usyskin * @hw: the txe hardware structure
35832e2b59fSTomas Winkler */
mei_txe_input_doorbell_set(struct mei_txe_hw * hw)35932e2b59fSTomas Winkler static void mei_txe_input_doorbell_set(struct mei_txe_hw *hw)
36032e2b59fSTomas Winkler {
36132e2b59fSTomas Winkler /* Clear the interrupt cause */
36232e2b59fSTomas Winkler clear_bit(TXE_INTR_IN_READY_BIT, &hw->intr_cause);
36332e2b59fSTomas Winkler mei_txe_sec_reg_write(hw, SEC_IPC_INPUT_DOORBELL_REG, 1);
36432e2b59fSTomas Winkler }
36532e2b59fSTomas Winkler
36632e2b59fSTomas Winkler /**
36732e2b59fSTomas Winkler * mei_txe_output_ready_set - Sets the SICR_SEC_IPC_OUTPUT_STATUS bit to 1
36832e2b59fSTomas Winkler *
369a8605ea2SAlexander Usyskin * @hw: the txe hardware structure
37032e2b59fSTomas Winkler */
mei_txe_output_ready_set(struct mei_txe_hw * hw)37132e2b59fSTomas Winkler static void mei_txe_output_ready_set(struct mei_txe_hw *hw)
37232e2b59fSTomas Winkler {
37332e2b59fSTomas Winkler mei_txe_br_reg_write(hw,
37432e2b59fSTomas Winkler SICR_SEC_IPC_OUTPUT_STATUS_REG,
37532e2b59fSTomas Winkler SEC_IPC_OUTPUT_STATUS_RDY);
37632e2b59fSTomas Winkler }
37732e2b59fSTomas Winkler
37832e2b59fSTomas Winkler /**
37932e2b59fSTomas Winkler * mei_txe_is_input_ready - check if TXE is ready for receiving data
38032e2b59fSTomas Winkler *
38132e2b59fSTomas Winkler * @dev: the device structure
382ce23139cSAlexander Usyskin *
383ce23139cSAlexander Usyskin * Return: true if INPUT STATUS READY bit is set
38432e2b59fSTomas Winkler */
mei_txe_is_input_ready(struct mei_device * dev)38532e2b59fSTomas Winkler static bool mei_txe_is_input_ready(struct mei_device *dev)
38632e2b59fSTomas Winkler {
38732e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
38832e2b59fSTomas Winkler u32 status;
38992db1555STomas Winkler
39032e2b59fSTomas Winkler status = mei_txe_sec_reg_read(hw, SEC_IPC_INPUT_STATUS_REG);
39132e2b59fSTomas Winkler return !!(SEC_IPC_INPUT_STATUS_RDY & status);
39232e2b59fSTomas Winkler }
39332e2b59fSTomas Winkler
39432e2b59fSTomas Winkler /**
39532e2b59fSTomas Winkler * mei_txe_intr_clear - clear all interrupts
39632e2b59fSTomas Winkler *
39732e2b59fSTomas Winkler * @dev: the device structure
39832e2b59fSTomas Winkler */
mei_txe_intr_clear(struct mei_device * dev)39932e2b59fSTomas Winkler static inline void mei_txe_intr_clear(struct mei_device *dev)
40032e2b59fSTomas Winkler {
40132e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
40292db1555STomas Winkler
40332e2b59fSTomas Winkler mei_txe_sec_reg_write_silent(hw, SEC_IPC_HOST_INT_STATUS_REG,
40432e2b59fSTomas Winkler SEC_IPC_HOST_INT_STATUS_PENDING);
40532e2b59fSTomas Winkler mei_txe_br_reg_write(hw, HISR_REG, HISR_INT_STS_MSK);
40632e2b59fSTomas Winkler mei_txe_br_reg_write(hw, HHISR_REG, IPC_HHIER_MSK);
40732e2b59fSTomas Winkler }
40832e2b59fSTomas Winkler
40932e2b59fSTomas Winkler /**
41032e2b59fSTomas Winkler * mei_txe_intr_disable - disable all interrupts
41132e2b59fSTomas Winkler *
41232e2b59fSTomas Winkler * @dev: the device structure
41332e2b59fSTomas Winkler */
mei_txe_intr_disable(struct mei_device * dev)41432e2b59fSTomas Winkler static void mei_txe_intr_disable(struct mei_device *dev)
41532e2b59fSTomas Winkler {
41632e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
41792db1555STomas Winkler
41832e2b59fSTomas Winkler mei_txe_br_reg_write(hw, HHIER_REG, 0);
41932e2b59fSTomas Winkler mei_txe_br_reg_write(hw, HIER_REG, 0);
42032e2b59fSTomas Winkler }
42132e2b59fSTomas Winkler /**
4223908be6fSAlexander Usyskin * mei_txe_intr_enable - enable all interrupts
42332e2b59fSTomas Winkler *
42432e2b59fSTomas Winkler * @dev: the device structure
42532e2b59fSTomas Winkler */
mei_txe_intr_enable(struct mei_device * dev)42632e2b59fSTomas Winkler static void mei_txe_intr_enable(struct mei_device *dev)
42732e2b59fSTomas Winkler {
42832e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
42992db1555STomas Winkler
43032e2b59fSTomas Winkler mei_txe_br_reg_write(hw, HHIER_REG, IPC_HHIER_MSK);
43132e2b59fSTomas Winkler mei_txe_br_reg_write(hw, HIER_REG, HIER_INT_EN_MSK);
43232e2b59fSTomas Winkler }
43332e2b59fSTomas Winkler
43432e2b59fSTomas Winkler /**
4354a8efd4aSTomas Winkler * mei_txe_synchronize_irq - wait for pending IRQ handlers
4364a8efd4aSTomas Winkler *
4374a8efd4aSTomas Winkler * @dev: the device structure
4384a8efd4aSTomas Winkler */
mei_txe_synchronize_irq(struct mei_device * dev)4394a8efd4aSTomas Winkler static void mei_txe_synchronize_irq(struct mei_device *dev)
4404a8efd4aSTomas Winkler {
4414a8efd4aSTomas Winkler struct pci_dev *pdev = to_pci_dev(dev->dev);
4424a8efd4aSTomas Winkler
4434a8efd4aSTomas Winkler synchronize_irq(pdev->irq);
4444a8efd4aSTomas Winkler }
4454a8efd4aSTomas Winkler
4464a8efd4aSTomas Winkler /**
44732e2b59fSTomas Winkler * mei_txe_pending_interrupts - check if there are pending interrupts
44832e2b59fSTomas Winkler * only Aliveness, Input ready, and output doorbell are of relevance
44932e2b59fSTomas Winkler *
45032e2b59fSTomas Winkler * @dev: the device structure
45132e2b59fSTomas Winkler *
45232e2b59fSTomas Winkler * Checks if there are pending interrupts
45332e2b59fSTomas Winkler * only Aliveness, Readiness, Input ready, and Output doorbell are relevant
454ce23139cSAlexander Usyskin *
455ce23139cSAlexander Usyskin * Return: true if there are pending interrupts
45632e2b59fSTomas Winkler */
mei_txe_pending_interrupts(struct mei_device * dev)45732e2b59fSTomas Winkler static bool mei_txe_pending_interrupts(struct mei_device *dev)
45832e2b59fSTomas Winkler {
45932e2b59fSTomas Winkler
46032e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
46132e2b59fSTomas Winkler bool ret = (hw->intr_cause & (TXE_INTR_READINESS |
46232e2b59fSTomas Winkler TXE_INTR_ALIVENESS |
46332e2b59fSTomas Winkler TXE_INTR_IN_READY |
46432e2b59fSTomas Winkler TXE_INTR_OUT_DB));
46532e2b59fSTomas Winkler
46632e2b59fSTomas Winkler if (ret) {
4672bf94cabSTomas Winkler dev_dbg(dev->dev,
46832e2b59fSTomas Winkler "Pending Interrupts InReady=%01d Readiness=%01d, Aliveness=%01d, OutDoor=%01d\n",
46932e2b59fSTomas Winkler !!(hw->intr_cause & TXE_INTR_IN_READY),
47032e2b59fSTomas Winkler !!(hw->intr_cause & TXE_INTR_READINESS),
47132e2b59fSTomas Winkler !!(hw->intr_cause & TXE_INTR_ALIVENESS),
47232e2b59fSTomas Winkler !!(hw->intr_cause & TXE_INTR_OUT_DB));
47332e2b59fSTomas Winkler }
47432e2b59fSTomas Winkler return ret;
47532e2b59fSTomas Winkler }
47632e2b59fSTomas Winkler
47732e2b59fSTomas Winkler /**
47832e2b59fSTomas Winkler * mei_txe_input_payload_write - write a dword to the host buffer
47932e2b59fSTomas Winkler * at offset idx
48032e2b59fSTomas Winkler *
48132e2b59fSTomas Winkler * @dev: the device structure
48232e2b59fSTomas Winkler * @idx: index in the host buffer
48332e2b59fSTomas Winkler * @value: value
48432e2b59fSTomas Winkler */
mei_txe_input_payload_write(struct mei_device * dev,unsigned long idx,u32 value)48532e2b59fSTomas Winkler static void mei_txe_input_payload_write(struct mei_device *dev,
48632e2b59fSTomas Winkler unsigned long idx, u32 value)
48732e2b59fSTomas Winkler {
48832e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
48992db1555STomas Winkler
49032e2b59fSTomas Winkler mei_txe_sec_reg_write(hw, SEC_IPC_INPUT_PAYLOAD_REG +
49132e2b59fSTomas Winkler (idx * sizeof(u32)), value);
49232e2b59fSTomas Winkler }
49332e2b59fSTomas Winkler
49432e2b59fSTomas Winkler /**
49532e2b59fSTomas Winkler * mei_txe_out_data_read - read dword from the device buffer
49632e2b59fSTomas Winkler * at offset idx
49732e2b59fSTomas Winkler *
49832e2b59fSTomas Winkler * @dev: the device structure
49932e2b59fSTomas Winkler * @idx: index in the device buffer
50032e2b59fSTomas Winkler *
501a8605ea2SAlexander Usyskin * Return: register value at index
50232e2b59fSTomas Winkler */
mei_txe_out_data_read(const struct mei_device * dev,unsigned long idx)50332e2b59fSTomas Winkler static u32 mei_txe_out_data_read(const struct mei_device *dev,
50432e2b59fSTomas Winkler unsigned long idx)
50532e2b59fSTomas Winkler {
50632e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
50792db1555STomas Winkler
50832e2b59fSTomas Winkler return mei_txe_br_reg_read(hw,
50932e2b59fSTomas Winkler BRIDGE_IPC_OUTPUT_PAYLOAD_REG + (idx * sizeof(u32)));
51032e2b59fSTomas Winkler }
51132e2b59fSTomas Winkler
51232e2b59fSTomas Winkler /* Readiness */
51332e2b59fSTomas Winkler
51432e2b59fSTomas Winkler /**
515ce23139cSAlexander Usyskin * mei_txe_readiness_set_host_rdy - set host readiness bit
51632e2b59fSTomas Winkler *
51732e2b59fSTomas Winkler * @dev: the device structure
51832e2b59fSTomas Winkler */
mei_txe_readiness_set_host_rdy(struct mei_device * dev)51932e2b59fSTomas Winkler static void mei_txe_readiness_set_host_rdy(struct mei_device *dev)
52032e2b59fSTomas Winkler {
52132e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
52292db1555STomas Winkler
52332e2b59fSTomas Winkler mei_txe_br_reg_write(hw,
52432e2b59fSTomas Winkler SICR_HOST_IPC_READINESS_REQ_REG,
52532e2b59fSTomas Winkler SICR_HOST_IPC_READINESS_HOST_RDY);
52632e2b59fSTomas Winkler }
52732e2b59fSTomas Winkler
52832e2b59fSTomas Winkler /**
529ce23139cSAlexander Usyskin * mei_txe_readiness_clear - clear host readiness bit
53032e2b59fSTomas Winkler *
53132e2b59fSTomas Winkler * @dev: the device structure
53232e2b59fSTomas Winkler */
mei_txe_readiness_clear(struct mei_device * dev)53332e2b59fSTomas Winkler static void mei_txe_readiness_clear(struct mei_device *dev)
53432e2b59fSTomas Winkler {
53532e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
53692db1555STomas Winkler
53732e2b59fSTomas Winkler mei_txe_br_reg_write(hw, SICR_HOST_IPC_READINESS_REQ_REG,
53832e2b59fSTomas Winkler SICR_HOST_IPC_READINESS_RDY_CLR);
53932e2b59fSTomas Winkler }
54032e2b59fSTomas Winkler /**
54132e2b59fSTomas Winkler * mei_txe_readiness_get - Reads and returns
54232e2b59fSTomas Winkler * the HICR_SEC_IPC_READINESS register value
54332e2b59fSTomas Winkler *
54432e2b59fSTomas Winkler * @dev: the device structure
545a8605ea2SAlexander Usyskin *
546a8605ea2SAlexander Usyskin * Return: the HICR_SEC_IPC_READINESS register value
54732e2b59fSTomas Winkler */
mei_txe_readiness_get(struct mei_device * dev)54832e2b59fSTomas Winkler static u32 mei_txe_readiness_get(struct mei_device *dev)
54932e2b59fSTomas Winkler {
55032e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
55192db1555STomas Winkler
55232e2b59fSTomas Winkler return mei_txe_br_reg_read(hw, HICR_SEC_IPC_READINESS_REG);
55332e2b59fSTomas Winkler }
55432e2b59fSTomas Winkler
55532e2b59fSTomas Winkler
55632e2b59fSTomas Winkler /**
55732e2b59fSTomas Winkler * mei_txe_readiness_is_sec_rdy - check readiness
55832e2b59fSTomas Winkler * for HICR_SEC_IPC_READINESS_SEC_RDY
55932e2b59fSTomas Winkler *
560ce23139cSAlexander Usyskin * @readiness: cached readiness state
561ce23139cSAlexander Usyskin *
562ce23139cSAlexander Usyskin * Return: true if readiness bit is set
56332e2b59fSTomas Winkler */
mei_txe_readiness_is_sec_rdy(u32 readiness)56432e2b59fSTomas Winkler static inline bool mei_txe_readiness_is_sec_rdy(u32 readiness)
56532e2b59fSTomas Winkler {
56632e2b59fSTomas Winkler return !!(readiness & HICR_SEC_IPC_READINESS_SEC_RDY);
56732e2b59fSTomas Winkler }
56832e2b59fSTomas Winkler
56932e2b59fSTomas Winkler /**
57032e2b59fSTomas Winkler * mei_txe_hw_is_ready - check if the hw is ready
57132e2b59fSTomas Winkler *
57232e2b59fSTomas Winkler * @dev: the device structure
573ce23139cSAlexander Usyskin *
574ce23139cSAlexander Usyskin * Return: true if sec is ready
57532e2b59fSTomas Winkler */
mei_txe_hw_is_ready(struct mei_device * dev)57632e2b59fSTomas Winkler static bool mei_txe_hw_is_ready(struct mei_device *dev)
57732e2b59fSTomas Winkler {
57832e2b59fSTomas Winkler u32 readiness = mei_txe_readiness_get(dev);
57992db1555STomas Winkler
58032e2b59fSTomas Winkler return mei_txe_readiness_is_sec_rdy(readiness);
58132e2b59fSTomas Winkler }
58232e2b59fSTomas Winkler
58332e2b59fSTomas Winkler /**
58432e2b59fSTomas Winkler * mei_txe_host_is_ready - check if the host is ready
58532e2b59fSTomas Winkler *
58632e2b59fSTomas Winkler * @dev: the device structure
587ce23139cSAlexander Usyskin *
588ce23139cSAlexander Usyskin * Return: true if host is ready
58932e2b59fSTomas Winkler */
mei_txe_host_is_ready(struct mei_device * dev)59032e2b59fSTomas Winkler static inline bool mei_txe_host_is_ready(struct mei_device *dev)
59132e2b59fSTomas Winkler {
59232e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
59332e2b59fSTomas Winkler u32 reg = mei_txe_br_reg_read(hw, HICR_SEC_IPC_READINESS_REG);
59492db1555STomas Winkler
59532e2b59fSTomas Winkler return !!(reg & HICR_SEC_IPC_READINESS_HOST_RDY);
59632e2b59fSTomas Winkler }
59732e2b59fSTomas Winkler
59832e2b59fSTomas Winkler /**
59932e2b59fSTomas Winkler * mei_txe_readiness_wait - wait till readiness settles
60032e2b59fSTomas Winkler *
60132e2b59fSTomas Winkler * @dev: the device structure
60232e2b59fSTomas Winkler *
603a8605ea2SAlexander Usyskin * Return: 0 on success and -ETIME on timeout
60432e2b59fSTomas Winkler */
mei_txe_readiness_wait(struct mei_device * dev)60532e2b59fSTomas Winkler static int mei_txe_readiness_wait(struct mei_device *dev)
60632e2b59fSTomas Winkler {
60732e2b59fSTomas Winkler if (mei_txe_hw_is_ready(dev))
60832e2b59fSTomas Winkler return 0;
60932e2b59fSTomas Winkler
61032e2b59fSTomas Winkler mutex_unlock(&dev->device_lock);
61132e2b59fSTomas Winkler wait_event_timeout(dev->wait_hw_ready, dev->recvd_hw_ready,
61232e2b59fSTomas Winkler msecs_to_jiffies(SEC_RESET_WAIT_TIMEOUT));
61332e2b59fSTomas Winkler mutex_lock(&dev->device_lock);
61432e2b59fSTomas Winkler if (!dev->recvd_hw_ready) {
6152bf94cabSTomas Winkler dev_err(dev->dev, "wait for readiness failed\n");
61632e2b59fSTomas Winkler return -ETIME;
61732e2b59fSTomas Winkler }
61832e2b59fSTomas Winkler
61932e2b59fSTomas Winkler dev->recvd_hw_ready = false;
62032e2b59fSTomas Winkler return 0;
62132e2b59fSTomas Winkler }
62232e2b59fSTomas Winkler
623480bd3c4SFengguang Wu static const struct mei_fw_status mei_txe_fw_sts = {
6244ad96db6STomas Winkler .count = 2,
6254ad96db6STomas Winkler .status[0] = PCI_CFG_TXE_FW_STS0,
6264ad96db6STomas Winkler .status[1] = PCI_CFG_TXE_FW_STS1
6274ad96db6STomas Winkler };
6281bd30b6aSTomas Winkler
6291bd30b6aSTomas Winkler /**
6301bd30b6aSTomas Winkler * mei_txe_fw_status - read fw status register from pci config space
6311bd30b6aSTomas Winkler *
6321bd30b6aSTomas Winkler * @dev: mei device
6331bd30b6aSTomas Winkler * @fw_status: fw status register values
634ce23139cSAlexander Usyskin *
635ce23139cSAlexander Usyskin * Return: 0 on success, error otherwise
6361bd30b6aSTomas Winkler */
mei_txe_fw_status(struct mei_device * dev,struct mei_fw_status * fw_status)6371bd30b6aSTomas Winkler static int mei_txe_fw_status(struct mei_device *dev,
6381bd30b6aSTomas Winkler struct mei_fw_status *fw_status)
6391bd30b6aSTomas Winkler {
6404ad96db6STomas Winkler const struct mei_fw_status *fw_src = &mei_txe_fw_sts;
6411bd30b6aSTomas Winkler struct pci_dev *pdev = to_pci_dev(dev->dev);
6421bd30b6aSTomas Winkler int ret;
6431bd30b6aSTomas Winkler int i;
6441bd30b6aSTomas Winkler
6451bd30b6aSTomas Winkler if (!fw_status)
6461bd30b6aSTomas Winkler return -EINVAL;
6471bd30b6aSTomas Winkler
6481bd30b6aSTomas Winkler fw_status->count = fw_src->count;
6491bd30b6aSTomas Winkler for (i = 0; i < fw_src->count && i < MEI_FW_STATUS_MAX; i++) {
650a96c5482STomas Winkler ret = pci_read_config_dword(pdev, fw_src->status[i],
651a96c5482STomas Winkler &fw_status->status[i]);
652a96c5482STomas Winkler trace_mei_pci_cfg_read(dev->dev, "PCI_CFG_HSF_X",
653a96c5482STomas Winkler fw_src->status[i],
654a96c5482STomas Winkler fw_status->status[i]);
6551bd30b6aSTomas Winkler if (ret)
6561bd30b6aSTomas Winkler return ret;
6571bd30b6aSTomas Winkler }
6581bd30b6aSTomas Winkler
6591bd30b6aSTomas Winkler return 0;
6601bd30b6aSTomas Winkler }
6611bd30b6aSTomas Winkler
66232e2b59fSTomas Winkler /**
66332e2b59fSTomas Winkler * mei_txe_hw_config - configure hardware at the start of the devices
66432e2b59fSTomas Winkler *
66532e2b59fSTomas Winkler * @dev: the device structure
66632e2b59fSTomas Winkler *
66732e2b59fSTomas Winkler * Configure hardware at the start of the device should be done only
66832e2b59fSTomas Winkler * once at the device probe time
669261e071aSTomas Winkler *
670261e071aSTomas Winkler * Return: always 0
67132e2b59fSTomas Winkler */
mei_txe_hw_config(struct mei_device * dev)672261e071aSTomas Winkler static int mei_txe_hw_config(struct mei_device *dev)
67332e2b59fSTomas Winkler {
67432e2b59fSTomas Winkler
67532e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
67692db1555STomas Winkler
67732e2b59fSTomas Winkler hw->aliveness = mei_txe_aliveness_get(dev);
67832e2b59fSTomas Winkler hw->readiness = mei_txe_readiness_get(dev);
67932e2b59fSTomas Winkler
6802bf94cabSTomas Winkler dev_dbg(dev->dev, "aliveness_resp = 0x%08x, readiness = 0x%08x.\n",
68132e2b59fSTomas Winkler hw->aliveness, hw->readiness);
682261e071aSTomas Winkler
683261e071aSTomas Winkler return 0;
68432e2b59fSTomas Winkler }
68532e2b59fSTomas Winkler
68632e2b59fSTomas Winkler /**
68732e2b59fSTomas Winkler * mei_txe_write - writes a message to device.
68832e2b59fSTomas Winkler *
68932e2b59fSTomas Winkler * @dev: the device structure
69098e70866STomas Winkler * @hdr: header of message
69198e70866STomas Winkler * @hdr_len: header length in bytes - must multiplication of a slot (4bytes)
69298e70866STomas Winkler * @data: payload
69398e70866STomas Winkler * @data_len: paylead length in bytes
694a8605ea2SAlexander Usyskin *
695ce23139cSAlexander Usyskin * Return: 0 if success, < 0 - otherwise.
69632e2b59fSTomas Winkler */
mei_txe_write(struct mei_device * dev,const void * hdr,size_t hdr_len,const void * data,size_t data_len)69732e2b59fSTomas Winkler static int mei_txe_write(struct mei_device *dev,
69898e70866STomas Winkler const void *hdr, size_t hdr_len,
69998e70866STomas Winkler const void *data, size_t data_len)
70032e2b59fSTomas Winkler {
70132e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
70232e2b59fSTomas Winkler unsigned long rem;
70398e70866STomas Winkler const u32 *reg_buf;
7048c8d964cSTomas Winkler u32 slots = TXE_HBUF_DEPTH;
7059d098192STomas Winkler u32 dw_cnt;
70698e70866STomas Winkler unsigned long i, j;
70732e2b59fSTomas Winkler
70898e70866STomas Winkler if (WARN_ON(!hdr || !data || hdr_len & 0x3))
70932e2b59fSTomas Winkler return -EINVAL;
71032e2b59fSTomas Winkler
71198e70866STomas Winkler dev_dbg(dev->dev, MEI_HDR_FMT, MEI_HDR_PRM((struct mei_msg_hdr *)hdr));
71232e2b59fSTomas Winkler
71398e70866STomas Winkler dw_cnt = mei_data2slots(hdr_len + data_len);
7149d098192STomas Winkler if (dw_cnt > slots)
7159d098192STomas Winkler return -EMSGSIZE;
71632e2b59fSTomas Winkler
71732e2b59fSTomas Winkler if (WARN(!hw->aliveness, "txe write: aliveness not asserted\n"))
71832e2b59fSTomas Winkler return -EAGAIN;
71932e2b59fSTomas Winkler
72032e2b59fSTomas Winkler /* Enable Input Ready Interrupt. */
72132e2b59fSTomas Winkler mei_txe_input_ready_interrupt_enable(dev);
72232e2b59fSTomas Winkler
72332e2b59fSTomas Winkler if (!mei_txe_is_input_ready(dev)) {
724edca5ea3SAlexander Usyskin char fw_sts_str[MEI_FW_STATUS_STR_SZ];
72592db1555STomas Winkler
726edca5ea3SAlexander Usyskin mei_fw_status_str(dev, fw_sts_str, MEI_FW_STATUS_STR_SZ);
727edca5ea3SAlexander Usyskin dev_err(dev->dev, "Input is not ready %s\n", fw_sts_str);
72832e2b59fSTomas Winkler return -EAGAIN;
72932e2b59fSTomas Winkler }
73032e2b59fSTomas Winkler
73198e70866STomas Winkler reg_buf = hdr;
73298e70866STomas Winkler for (i = 0; i < hdr_len / MEI_SLOT_SIZE; i++)
73398e70866STomas Winkler mei_txe_input_payload_write(dev, i, reg_buf[i]);
73432e2b59fSTomas Winkler
73598e70866STomas Winkler reg_buf = data;
73698e70866STomas Winkler for (j = 0; j < data_len / MEI_SLOT_SIZE; j++)
73798e70866STomas Winkler mei_txe_input_payload_write(dev, i + j, reg_buf[j]);
73832e2b59fSTomas Winkler
73998e70866STomas Winkler rem = data_len & 0x3;
74032e2b59fSTomas Winkler if (rem > 0) {
74132e2b59fSTomas Winkler u32 reg = 0;
74292db1555STomas Winkler
74398e70866STomas Winkler memcpy(®, (const u8 *)data + data_len - rem, rem);
74498e70866STomas Winkler mei_txe_input_payload_write(dev, i + j, reg);
74532e2b59fSTomas Winkler }
74632e2b59fSTomas Winkler
7479d098192STomas Winkler /* after each write the whole buffer is consumed */
7489d098192STomas Winkler hw->slots = 0;
7499d098192STomas Winkler
75032e2b59fSTomas Winkler /* Set Input-Doorbell */
75132e2b59fSTomas Winkler mei_txe_input_doorbell_set(hw);
75232e2b59fSTomas Winkler
75332e2b59fSTomas Winkler return 0;
75432e2b59fSTomas Winkler }
75532e2b59fSTomas Winkler
75632e2b59fSTomas Winkler /**
7578c8d964cSTomas Winkler * mei_txe_hbuf_depth - mimics the me hbuf circular buffer
75832e2b59fSTomas Winkler *
75932e2b59fSTomas Winkler * @dev: the device structure
76032e2b59fSTomas Winkler *
7618c8d964cSTomas Winkler * Return: the TXE_HBUF_DEPTH
76232e2b59fSTomas Winkler */
mei_txe_hbuf_depth(const struct mei_device * dev)7638c8d964cSTomas Winkler static u32 mei_txe_hbuf_depth(const struct mei_device *dev)
76432e2b59fSTomas Winkler {
7658c8d964cSTomas Winkler return TXE_HBUF_DEPTH;
76632e2b59fSTomas Winkler }
76732e2b59fSTomas Winkler
76832e2b59fSTomas Winkler /**
76932e2b59fSTomas Winkler * mei_txe_hbuf_empty_slots - mimics the me hbuf circular buffer
77032e2b59fSTomas Winkler *
77132e2b59fSTomas Winkler * @dev: the device structure
77232e2b59fSTomas Winkler *
7738c8d964cSTomas Winkler * Return: always TXE_HBUF_DEPTH
77432e2b59fSTomas Winkler */
mei_txe_hbuf_empty_slots(struct mei_device * dev)77532e2b59fSTomas Winkler static int mei_txe_hbuf_empty_slots(struct mei_device *dev)
77632e2b59fSTomas Winkler {
7779d098192STomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
77892db1555STomas Winkler
7799d098192STomas Winkler return hw->slots;
78032e2b59fSTomas Winkler }
78132e2b59fSTomas Winkler
78232e2b59fSTomas Winkler /**
78332e2b59fSTomas Winkler * mei_txe_count_full_read_slots - mimics the me device circular buffer
78432e2b59fSTomas Winkler *
78532e2b59fSTomas Winkler * @dev: the device structure
78632e2b59fSTomas Winkler *
787a8605ea2SAlexander Usyskin * Return: always buffer size in dwords count
78832e2b59fSTomas Winkler */
mei_txe_count_full_read_slots(struct mei_device * dev)78932e2b59fSTomas Winkler static int mei_txe_count_full_read_slots(struct mei_device *dev)
79032e2b59fSTomas Winkler {
79132e2b59fSTomas Winkler /* read buffers has static size */
7928c8d964cSTomas Winkler return TXE_HBUF_DEPTH;
79332e2b59fSTomas Winkler }
79432e2b59fSTomas Winkler
79532e2b59fSTomas Winkler /**
79632e2b59fSTomas Winkler * mei_txe_read_hdr - read message header which is always in 4 first bytes
79732e2b59fSTomas Winkler *
79832e2b59fSTomas Winkler * @dev: the device structure
79932e2b59fSTomas Winkler *
800a8605ea2SAlexander Usyskin * Return: mei message header
80132e2b59fSTomas Winkler */
80232e2b59fSTomas Winkler
mei_txe_read_hdr(const struct mei_device * dev)80332e2b59fSTomas Winkler static u32 mei_txe_read_hdr(const struct mei_device *dev)
80432e2b59fSTomas Winkler {
80532e2b59fSTomas Winkler return mei_txe_out_data_read(dev, 0);
80632e2b59fSTomas Winkler }
80732e2b59fSTomas Winkler /**
80832e2b59fSTomas Winkler * mei_txe_read - reads a message from the txe device.
80932e2b59fSTomas Winkler *
81032e2b59fSTomas Winkler * @dev: the device structure
81132e2b59fSTomas Winkler * @buf: message buffer will be written
81232e2b59fSTomas Winkler * @len: message size will be read
81332e2b59fSTomas Winkler *
814a8605ea2SAlexander Usyskin * Return: -EINVAL on error wrong argument and 0 on success
81532e2b59fSTomas Winkler */
mei_txe_read(struct mei_device * dev,unsigned char * buf,unsigned long len)81632e2b59fSTomas Winkler static int mei_txe_read(struct mei_device *dev,
81732e2b59fSTomas Winkler unsigned char *buf, unsigned long len)
81832e2b59fSTomas Winkler {
81932e2b59fSTomas Winkler
82032e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
82192db1555STomas Winkler u32 *reg_buf, reg;
82292db1555STomas Winkler u32 rem;
82332e2b59fSTomas Winkler u32 i;
82432e2b59fSTomas Winkler
82532e2b59fSTomas Winkler if (WARN_ON(!buf || !len))
82632e2b59fSTomas Winkler return -EINVAL;
82732e2b59fSTomas Winkler
82892db1555STomas Winkler reg_buf = (u32 *)buf;
82992db1555STomas Winkler rem = len & 0x3;
83092db1555STomas Winkler
8312bf94cabSTomas Winkler dev_dbg(dev->dev, "buffer-length = %lu buf[0]0x%08X\n",
83232e2b59fSTomas Winkler len, mei_txe_out_data_read(dev, 0));
83332e2b59fSTomas Winkler
8349fc5f0f8STomas Winkler for (i = 0; i < len / MEI_SLOT_SIZE; i++) {
83532e2b59fSTomas Winkler /* skip header: index starts from 1 */
83692db1555STomas Winkler reg = mei_txe_out_data_read(dev, i + 1);
8372bf94cabSTomas Winkler dev_dbg(dev->dev, "buf[%d] = 0x%08X\n", i, reg);
83832e2b59fSTomas Winkler *reg_buf++ = reg;
83932e2b59fSTomas Winkler }
84032e2b59fSTomas Winkler
84132e2b59fSTomas Winkler if (rem) {
84292db1555STomas Winkler reg = mei_txe_out_data_read(dev, i + 1);
84332e2b59fSTomas Winkler memcpy(reg_buf, ®, rem);
84432e2b59fSTomas Winkler }
84532e2b59fSTomas Winkler
84632e2b59fSTomas Winkler mei_txe_output_ready_set(hw);
84732e2b59fSTomas Winkler return 0;
84832e2b59fSTomas Winkler }
84932e2b59fSTomas Winkler
85032e2b59fSTomas Winkler /**
85132e2b59fSTomas Winkler * mei_txe_hw_reset - resets host and fw.
85232e2b59fSTomas Winkler *
85332e2b59fSTomas Winkler * @dev: the device structure
85432e2b59fSTomas Winkler * @intr_enable: if interrupt should be enabled after reset.
85532e2b59fSTomas Winkler *
856a8605ea2SAlexander Usyskin * Return: 0 on success and < 0 in case of error
85732e2b59fSTomas Winkler */
mei_txe_hw_reset(struct mei_device * dev,bool intr_enable)85832e2b59fSTomas Winkler static int mei_txe_hw_reset(struct mei_device *dev, bool intr_enable)
85932e2b59fSTomas Winkler {
86032e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
86132e2b59fSTomas Winkler
86232e2b59fSTomas Winkler u32 aliveness_req;
86332e2b59fSTomas Winkler /*
86432e2b59fSTomas Winkler * read input doorbell to ensure consistency between Bridge and SeC
86532e2b59fSTomas Winkler * return value might be garbage return
86632e2b59fSTomas Winkler */
86732e2b59fSTomas Winkler (void)mei_txe_sec_reg_read_silent(hw, SEC_IPC_INPUT_DOORBELL_REG);
86832e2b59fSTomas Winkler
86932e2b59fSTomas Winkler aliveness_req = mei_txe_aliveness_req_get(dev);
87032e2b59fSTomas Winkler hw->aliveness = mei_txe_aliveness_get(dev);
87132e2b59fSTomas Winkler
87232e2b59fSTomas Winkler /* Disable interrupts in this stage we will poll */
87332e2b59fSTomas Winkler mei_txe_intr_disable(dev);
87432e2b59fSTomas Winkler
87532e2b59fSTomas Winkler /*
87632e2b59fSTomas Winkler * If Aliveness Request and Aliveness Response are not equal then
87732e2b59fSTomas Winkler * wait for them to be equal
87832e2b59fSTomas Winkler * Since we might have interrupts disabled - poll for it
87932e2b59fSTomas Winkler */
88032e2b59fSTomas Winkler if (aliveness_req != hw->aliveness)
88132e2b59fSTomas Winkler if (mei_txe_aliveness_poll(dev, aliveness_req) < 0) {
8822bf94cabSTomas Winkler dev_err(dev->dev, "wait for aliveness settle failed ... bailing out\n");
88332e2b59fSTomas Winkler return -EIO;
88432e2b59fSTomas Winkler }
88532e2b59fSTomas Winkler
88632e2b59fSTomas Winkler /*
88732e2b59fSTomas Winkler * If Aliveness Request and Aliveness Response are set then clear them
88832e2b59fSTomas Winkler */
88932e2b59fSTomas Winkler if (aliveness_req) {
89032e2b59fSTomas Winkler mei_txe_aliveness_set(dev, 0);
89132e2b59fSTomas Winkler if (mei_txe_aliveness_poll(dev, 0) < 0) {
8922bf94cabSTomas Winkler dev_err(dev->dev, "wait for aliveness failed ... bailing out\n");
89332e2b59fSTomas Winkler return -EIO;
89432e2b59fSTomas Winkler }
89532e2b59fSTomas Winkler }
89632e2b59fSTomas Winkler
89732e2b59fSTomas Winkler /*
8980a01e974SAlexander Usyskin * Set readiness RDY_CLR bit
89932e2b59fSTomas Winkler */
90032e2b59fSTomas Winkler mei_txe_readiness_clear(dev);
90132e2b59fSTomas Winkler
90232e2b59fSTomas Winkler return 0;
90332e2b59fSTomas Winkler }
90432e2b59fSTomas Winkler
90532e2b59fSTomas Winkler /**
90632e2b59fSTomas Winkler * mei_txe_hw_start - start the hardware after reset
90732e2b59fSTomas Winkler *
90832e2b59fSTomas Winkler * @dev: the device structure
90932e2b59fSTomas Winkler *
910ce23139cSAlexander Usyskin * Return: 0 on success an error code otherwise
91132e2b59fSTomas Winkler */
mei_txe_hw_start(struct mei_device * dev)91232e2b59fSTomas Winkler static int mei_txe_hw_start(struct mei_device *dev)
91332e2b59fSTomas Winkler {
91432e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
91532e2b59fSTomas Winkler int ret;
91632e2b59fSTomas Winkler
91732e2b59fSTomas Winkler u32 hisr;
91832e2b59fSTomas Winkler
91932e2b59fSTomas Winkler /* bring back interrupts */
92032e2b59fSTomas Winkler mei_txe_intr_enable(dev);
92132e2b59fSTomas Winkler
92232e2b59fSTomas Winkler ret = mei_txe_readiness_wait(dev);
92332e2b59fSTomas Winkler if (ret < 0) {
9240a01e974SAlexander Usyskin dev_err(dev->dev, "waiting for readiness failed\n");
92532e2b59fSTomas Winkler return ret;
92632e2b59fSTomas Winkler }
92732e2b59fSTomas Winkler
92832e2b59fSTomas Winkler /*
92932e2b59fSTomas Winkler * If HISR.INT2_STS interrupt status bit is set then clear it.
93032e2b59fSTomas Winkler */
93132e2b59fSTomas Winkler hisr = mei_txe_br_reg_read(hw, HISR_REG);
93232e2b59fSTomas Winkler if (hisr & HISR_INT_2_STS)
93332e2b59fSTomas Winkler mei_txe_br_reg_write(hw, HISR_REG, HISR_INT_2_STS);
93432e2b59fSTomas Winkler
93532e2b59fSTomas Winkler /* Clear the interrupt cause of OutputDoorbell */
93632e2b59fSTomas Winkler clear_bit(TXE_INTR_OUT_DB_BIT, &hw->intr_cause);
93732e2b59fSTomas Winkler
93832e2b59fSTomas Winkler ret = mei_txe_aliveness_set_sync(dev, 1);
93932e2b59fSTomas Winkler if (ret < 0) {
9402bf94cabSTomas Winkler dev_err(dev->dev, "wait for aliveness failed ... bailing out\n");
94132e2b59fSTomas Winkler return ret;
94232e2b59fSTomas Winkler }
94332e2b59fSTomas Winkler
94477537ad2SAlexander Usyskin pm_runtime_set_active(dev->dev);
94577537ad2SAlexander Usyskin
94632e2b59fSTomas Winkler /* enable input ready interrupts:
94732e2b59fSTomas Winkler * SEC_IPC_HOST_INT_MASK.IPC_INPUT_READY_INT_MASK
94832e2b59fSTomas Winkler */
94932e2b59fSTomas Winkler mei_txe_input_ready_interrupt_enable(dev);
95032e2b59fSTomas Winkler
95132e2b59fSTomas Winkler
95232e2b59fSTomas Winkler /* Set the SICR_SEC_IPC_OUTPUT_STATUS.IPC_OUTPUT_READY bit */
95332e2b59fSTomas Winkler mei_txe_output_ready_set(hw);
95432e2b59fSTomas Winkler
95532e2b59fSTomas Winkler /* Set bit SICR_HOST_IPC_READINESS.HOST_RDY
95632e2b59fSTomas Winkler */
95732e2b59fSTomas Winkler mei_txe_readiness_set_host_rdy(dev);
95832e2b59fSTomas Winkler
95932e2b59fSTomas Winkler return 0;
96032e2b59fSTomas Winkler }
96132e2b59fSTomas Winkler
96232e2b59fSTomas Winkler /**
96332e2b59fSTomas Winkler * mei_txe_check_and_ack_intrs - translate multi BAR interrupt into
96432e2b59fSTomas Winkler * single bit mask and acknowledge the interrupts
96532e2b59fSTomas Winkler *
96632e2b59fSTomas Winkler * @dev: the device structure
96732e2b59fSTomas Winkler * @do_ack: acknowledge interrupts
968ce23139cSAlexander Usyskin *
969ce23139cSAlexander Usyskin * Return: true if found interrupts to process.
97032e2b59fSTomas Winkler */
mei_txe_check_and_ack_intrs(struct mei_device * dev,bool do_ack)97132e2b59fSTomas Winkler static bool mei_txe_check_and_ack_intrs(struct mei_device *dev, bool do_ack)
97232e2b59fSTomas Winkler {
97332e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
97432e2b59fSTomas Winkler u32 hisr;
97532e2b59fSTomas Winkler u32 hhisr;
97632e2b59fSTomas Winkler u32 ipc_isr;
97732e2b59fSTomas Winkler u32 aliveness;
97832e2b59fSTomas Winkler bool generated;
97932e2b59fSTomas Winkler
98032e2b59fSTomas Winkler /* read interrupt registers */
98132e2b59fSTomas Winkler hhisr = mei_txe_br_reg_read(hw, HHISR_REG);
98232e2b59fSTomas Winkler generated = (hhisr & IPC_HHIER_MSK);
98332e2b59fSTomas Winkler if (!generated)
98432e2b59fSTomas Winkler goto out;
98532e2b59fSTomas Winkler
98632e2b59fSTomas Winkler hisr = mei_txe_br_reg_read(hw, HISR_REG);
98732e2b59fSTomas Winkler
98832e2b59fSTomas Winkler aliveness = mei_txe_aliveness_get(dev);
98943605e29SAlexander Usyskin if (hhisr & IPC_HHIER_SEC && aliveness) {
99032e2b59fSTomas Winkler ipc_isr = mei_txe_sec_reg_read_silent(hw,
99132e2b59fSTomas Winkler SEC_IPC_HOST_INT_STATUS_REG);
99243605e29SAlexander Usyskin } else {
99332e2b59fSTomas Winkler ipc_isr = 0;
99443605e29SAlexander Usyskin hhisr &= ~IPC_HHIER_SEC;
99543605e29SAlexander Usyskin }
99632e2b59fSTomas Winkler
997d325537bSChristophe JAILLET if (do_ack) {
99832e2b59fSTomas Winkler /* Save the interrupt causes */
99932e2b59fSTomas Winkler hw->intr_cause |= hisr & HISR_INT_STS_MSK;
100032e2b59fSTomas Winkler if (ipc_isr & SEC_IPC_HOST_INT_STATUS_IN_RDY)
100132e2b59fSTomas Winkler hw->intr_cause |= TXE_INTR_IN_READY;
100232e2b59fSTomas Winkler
100332e2b59fSTomas Winkler
100432e2b59fSTomas Winkler mei_txe_intr_disable(dev);
100532e2b59fSTomas Winkler /* Clear the interrupts in hierarchy:
100632e2b59fSTomas Winkler * IPC and Bridge, than the High Level */
100732e2b59fSTomas Winkler mei_txe_sec_reg_write_silent(hw,
100832e2b59fSTomas Winkler SEC_IPC_HOST_INT_STATUS_REG, ipc_isr);
100932e2b59fSTomas Winkler mei_txe_br_reg_write(hw, HISR_REG, hisr);
101032e2b59fSTomas Winkler mei_txe_br_reg_write(hw, HHISR_REG, hhisr);
101132e2b59fSTomas Winkler }
101232e2b59fSTomas Winkler
101332e2b59fSTomas Winkler out:
101432e2b59fSTomas Winkler return generated;
101532e2b59fSTomas Winkler }
101632e2b59fSTomas Winkler
101732e2b59fSTomas Winkler /**
101832e2b59fSTomas Winkler * mei_txe_irq_quick_handler - The ISR of the MEI device
101932e2b59fSTomas Winkler *
102032e2b59fSTomas Winkler * @irq: The irq number
102132e2b59fSTomas Winkler * @dev_id: pointer to the device structure
102232e2b59fSTomas Winkler *
1023a8605ea2SAlexander Usyskin * Return: IRQ_WAKE_THREAD if interrupt is designed for the device
1024a8605ea2SAlexander Usyskin * IRQ_NONE otherwise
102532e2b59fSTomas Winkler */
mei_txe_irq_quick_handler(int irq,void * dev_id)102632e2b59fSTomas Winkler irqreturn_t mei_txe_irq_quick_handler(int irq, void *dev_id)
102732e2b59fSTomas Winkler {
102832e2b59fSTomas Winkler struct mei_device *dev = dev_id;
102932e2b59fSTomas Winkler
103032e2b59fSTomas Winkler if (mei_txe_check_and_ack_intrs(dev, true))
103132e2b59fSTomas Winkler return IRQ_WAKE_THREAD;
103232e2b59fSTomas Winkler return IRQ_NONE;
103332e2b59fSTomas Winkler }
103432e2b59fSTomas Winkler
103532e2b59fSTomas Winkler
103632e2b59fSTomas Winkler /**
103732e2b59fSTomas Winkler * mei_txe_irq_thread_handler - txe interrupt thread
103832e2b59fSTomas Winkler *
103932e2b59fSTomas Winkler * @irq: The irq number
104032e2b59fSTomas Winkler * @dev_id: pointer to the device structure
104132e2b59fSTomas Winkler *
1042a8605ea2SAlexander Usyskin * Return: IRQ_HANDLED
104332e2b59fSTomas Winkler */
mei_txe_irq_thread_handler(int irq,void * dev_id)104432e2b59fSTomas Winkler irqreturn_t mei_txe_irq_thread_handler(int irq, void *dev_id)
104532e2b59fSTomas Winkler {
104632e2b59fSTomas Winkler struct mei_device *dev = (struct mei_device *) dev_id;
104732e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
1048962ff7bcSAlexander Usyskin struct list_head cmpl_list;
104932e2b59fSTomas Winkler s32 slots;
105032e2b59fSTomas Winkler int rets = 0;
105132e2b59fSTomas Winkler
10522bf94cabSTomas Winkler dev_dbg(dev->dev, "irq thread: Interrupt Registers HHISR|HISR|SEC=%02X|%04X|%02X\n",
105332e2b59fSTomas Winkler mei_txe_br_reg_read(hw, HHISR_REG),
105432e2b59fSTomas Winkler mei_txe_br_reg_read(hw, HISR_REG),
105532e2b59fSTomas Winkler mei_txe_sec_reg_read_silent(hw, SEC_IPC_HOST_INT_STATUS_REG));
105632e2b59fSTomas Winkler
105732e2b59fSTomas Winkler
105832e2b59fSTomas Winkler /* initialize our complete list */
105932e2b59fSTomas Winkler mutex_lock(&dev->device_lock);
1060962ff7bcSAlexander Usyskin INIT_LIST_HEAD(&cmpl_list);
106132e2b59fSTomas Winkler
1062d08b8fc0STomas Winkler if (pci_dev_msi_enabled(to_pci_dev(dev->dev)))
106332e2b59fSTomas Winkler mei_txe_check_and_ack_intrs(dev, true);
106432e2b59fSTomas Winkler
106532e2b59fSTomas Winkler /* show irq events */
106632e2b59fSTomas Winkler mei_txe_pending_interrupts(dev);
106732e2b59fSTomas Winkler
106832e2b59fSTomas Winkler hw->aliveness = mei_txe_aliveness_get(dev);
106932e2b59fSTomas Winkler hw->readiness = mei_txe_readiness_get(dev);
107032e2b59fSTomas Winkler
107132e2b59fSTomas Winkler /* Readiness:
107232e2b59fSTomas Winkler * Detection of TXE driver going through reset
107332e2b59fSTomas Winkler * or TXE driver resetting the HECI interface.
107432e2b59fSTomas Winkler */
107532e2b59fSTomas Winkler if (test_and_clear_bit(TXE_INTR_READINESS_BIT, &hw->intr_cause)) {
10762bf94cabSTomas Winkler dev_dbg(dev->dev, "Readiness Interrupt was received...\n");
107732e2b59fSTomas Winkler
107832e2b59fSTomas Winkler /* Check if SeC is going through reset */
107932e2b59fSTomas Winkler if (mei_txe_readiness_is_sec_rdy(hw->readiness)) {
10802bf94cabSTomas Winkler dev_dbg(dev->dev, "we need to start the dev.\n");
108132e2b59fSTomas Winkler dev->recvd_hw_ready = true;
108232e2b59fSTomas Winkler } else {
108332e2b59fSTomas Winkler dev->recvd_hw_ready = false;
108432e2b59fSTomas Winkler if (dev->dev_state != MEI_DEV_RESETTING) {
108532e2b59fSTomas Winkler
10862bf94cabSTomas Winkler dev_warn(dev->dev, "FW not ready: resetting.\n");
108732e2b59fSTomas Winkler schedule_work(&dev->reset_work);
108832e2b59fSTomas Winkler goto end;
108932e2b59fSTomas Winkler
109032e2b59fSTomas Winkler }
109132e2b59fSTomas Winkler }
109232e2b59fSTomas Winkler wake_up(&dev->wait_hw_ready);
109332e2b59fSTomas Winkler }
109432e2b59fSTomas Winkler
109532e2b59fSTomas Winkler /************************************************************/
109632e2b59fSTomas Winkler /* Check interrupt cause:
109732e2b59fSTomas Winkler * Aliveness: Detection of SeC acknowledge of host request that
109832e2b59fSTomas Winkler * it remain alive or host cancellation of that request.
109932e2b59fSTomas Winkler */
110032e2b59fSTomas Winkler
110132e2b59fSTomas Winkler if (test_and_clear_bit(TXE_INTR_ALIVENESS_BIT, &hw->intr_cause)) {
110232e2b59fSTomas Winkler /* Clear the interrupt cause */
11032bf94cabSTomas Winkler dev_dbg(dev->dev,
110432e2b59fSTomas Winkler "Aliveness Interrupt: Status: %d\n", hw->aliveness);
1105964a2331STomas Winkler dev->pg_event = MEI_PG_EVENT_RECEIVED;
1106964a2331STomas Winkler if (waitqueue_active(&hw->wait_aliveness_resp))
1107964a2331STomas Winkler wake_up(&hw->wait_aliveness_resp);
110832e2b59fSTomas Winkler }
110932e2b59fSTomas Winkler
111032e2b59fSTomas Winkler
111132e2b59fSTomas Winkler /* Output Doorbell:
111232e2b59fSTomas Winkler * Detection of SeC having sent output to host
111332e2b59fSTomas Winkler */
111432e2b59fSTomas Winkler slots = mei_count_full_read_slots(dev);
111532e2b59fSTomas Winkler if (test_and_clear_bit(TXE_INTR_OUT_DB_BIT, &hw->intr_cause)) {
111632e2b59fSTomas Winkler /* Read from TXE */
1117962ff7bcSAlexander Usyskin rets = mei_irq_read_handler(dev, &cmpl_list, &slots);
11188d52af67STomas Winkler if (rets &&
111916ae30eaSDan Carpenter (dev->dev_state != MEI_DEV_RESETTING &&
11208d52af67STomas Winkler dev->dev_state != MEI_DEV_POWER_DOWN)) {
11212bf94cabSTomas Winkler dev_err(dev->dev,
112232e2b59fSTomas Winkler "mei_irq_read_handler ret = %d.\n", rets);
112332e2b59fSTomas Winkler
112432e2b59fSTomas Winkler schedule_work(&dev->reset_work);
112532e2b59fSTomas Winkler goto end;
112632e2b59fSTomas Winkler }
112732e2b59fSTomas Winkler }
112832e2b59fSTomas Winkler /* Input Ready: Detection if host can write to SeC */
11299d098192STomas Winkler if (test_and_clear_bit(TXE_INTR_IN_READY_BIT, &hw->intr_cause)) {
113032e2b59fSTomas Winkler dev->hbuf_is_ready = true;
11318c8d964cSTomas Winkler hw->slots = TXE_HBUF_DEPTH;
11329d098192STomas Winkler }
113332e2b59fSTomas Winkler
113432e2b59fSTomas Winkler if (hw->aliveness && dev->hbuf_is_ready) {
11356aae48ffSTomas Winkler /* get the real register value */
11366aae48ffSTomas Winkler dev->hbuf_is_ready = mei_hbuf_is_ready(dev);
1137962ff7bcSAlexander Usyskin rets = mei_irq_write_handler(dev, &cmpl_list);
11386aae48ffSTomas Winkler if (rets && rets != -EMSGSIZE)
11392bf94cabSTomas Winkler dev_err(dev->dev, "mei_irq_write_handler ret = %d.\n",
11406aae48ffSTomas Winkler rets);
11416aae48ffSTomas Winkler dev->hbuf_is_ready = mei_hbuf_is_ready(dev);
114232e2b59fSTomas Winkler }
114332e2b59fSTomas Winkler
1144962ff7bcSAlexander Usyskin mei_irq_compl_handler(dev, &cmpl_list);
114532e2b59fSTomas Winkler
114632e2b59fSTomas Winkler end:
11472bf94cabSTomas Winkler dev_dbg(dev->dev, "interrupt thread end ret = %d\n", rets);
114832e2b59fSTomas Winkler
114932e2b59fSTomas Winkler mutex_unlock(&dev->device_lock);
115032e2b59fSTomas Winkler
115132e2b59fSTomas Winkler mei_enable_interrupts(dev);
115232e2b59fSTomas Winkler return IRQ_HANDLED;
115332e2b59fSTomas Winkler }
115432e2b59fSTomas Winkler
115532e2b59fSTomas Winkler static const struct mei_hw_ops mei_txe_hw_ops = {
115632e2b59fSTomas Winkler
115732e2b59fSTomas Winkler .host_is_ready = mei_txe_host_is_ready,
115832e2b59fSTomas Winkler
11591bd30b6aSTomas Winkler .fw_status = mei_txe_fw_status,
1160964a2331STomas Winkler .pg_state = mei_txe_pg_state,
1161964a2331STomas Winkler
116232e2b59fSTomas Winkler .hw_is_ready = mei_txe_hw_is_ready,
116332e2b59fSTomas Winkler .hw_reset = mei_txe_hw_reset,
116432e2b59fSTomas Winkler .hw_config = mei_txe_hw_config,
116532e2b59fSTomas Winkler .hw_start = mei_txe_hw_start,
116632e2b59fSTomas Winkler
11673dc196eaSAlexander Usyskin .pg_in_transition = mei_txe_pg_in_transition,
1168ee7e5afdSTomas Winkler .pg_is_enabled = mei_txe_pg_is_enabled,
1169ee7e5afdSTomas Winkler
117032e2b59fSTomas Winkler .intr_clear = mei_txe_intr_clear,
117132e2b59fSTomas Winkler .intr_enable = mei_txe_intr_enable,
117232e2b59fSTomas Winkler .intr_disable = mei_txe_intr_disable,
11734a8efd4aSTomas Winkler .synchronize_irq = mei_txe_synchronize_irq,
117432e2b59fSTomas Winkler
117532e2b59fSTomas Winkler .hbuf_free_slots = mei_txe_hbuf_empty_slots,
117632e2b59fSTomas Winkler .hbuf_is_ready = mei_txe_is_input_ready,
11778c8d964cSTomas Winkler .hbuf_depth = mei_txe_hbuf_depth,
117832e2b59fSTomas Winkler
117932e2b59fSTomas Winkler .write = mei_txe_write,
118032e2b59fSTomas Winkler
118132e2b59fSTomas Winkler .rdbuf_full_slots = mei_txe_count_full_read_slots,
118232e2b59fSTomas Winkler .read_hdr = mei_txe_read_hdr,
118332e2b59fSTomas Winkler
118432e2b59fSTomas Winkler .read = mei_txe_read,
118532e2b59fSTomas Winkler
118632e2b59fSTomas Winkler };
118732e2b59fSTomas Winkler
118832e2b59fSTomas Winkler /**
118932e2b59fSTomas Winkler * mei_txe_dev_init - allocates and initializes txe hardware specific structure
119032e2b59fSTomas Winkler *
1191ce23139cSAlexander Usyskin * @pdev: pci device
11928d929d48SAlexander Usyskin *
1193ce23139cSAlexander Usyskin * Return: struct mei_device * on success or NULL
119432e2b59fSTomas Winkler */
mei_txe_dev_init(struct pci_dev * pdev)11954ad96db6STomas Winkler struct mei_device *mei_txe_dev_init(struct pci_dev *pdev)
119632e2b59fSTomas Winkler {
119732e2b59fSTomas Winkler struct mei_device *dev;
119832e2b59fSTomas Winkler struct mei_txe_hw *hw;
119932e2b59fSTomas Winkler
1200c614970eSTomas Winkler dev = devm_kzalloc(&pdev->dev, sizeof(*dev) + sizeof(*hw), GFP_KERNEL);
120132e2b59fSTomas Winkler if (!dev)
120232e2b59fSTomas Winkler return NULL;
120332e2b59fSTomas Winkler
120495953618SAlexander Usyskin mei_device_init(dev, &pdev->dev, false, &mei_txe_hw_ops);
120532e2b59fSTomas Winkler
120632e2b59fSTomas Winkler hw = to_txe_hw(dev);
120732e2b59fSTomas Winkler
1208964a2331STomas Winkler init_waitqueue_head(&hw->wait_aliveness_resp);
120932e2b59fSTomas Winkler
121032e2b59fSTomas Winkler return dev;
121132e2b59fSTomas Winkler }
121232e2b59fSTomas Winkler
121332e2b59fSTomas Winkler /**
121432e2b59fSTomas Winkler * mei_txe_setup_satt2 - SATT2 configuration for DMA support.
121532e2b59fSTomas Winkler *
121632e2b59fSTomas Winkler * @dev: the device structure
121732e2b59fSTomas Winkler * @addr: physical address start of the range
121832e2b59fSTomas Winkler * @range: physical range size
1219ce23139cSAlexander Usyskin *
1220ce23139cSAlexander Usyskin * Return: 0 on success an error code otherwise
122132e2b59fSTomas Winkler */
mei_txe_setup_satt2(struct mei_device * dev,phys_addr_t addr,u32 range)122232e2b59fSTomas Winkler int mei_txe_setup_satt2(struct mei_device *dev, phys_addr_t addr, u32 range)
122332e2b59fSTomas Winkler {
122432e2b59fSTomas Winkler struct mei_txe_hw *hw = to_txe_hw(dev);
122532e2b59fSTomas Winkler
122632e2b59fSTomas Winkler u32 lo32 = lower_32_bits(addr);
122732e2b59fSTomas Winkler u32 hi32 = upper_32_bits(addr);
122832e2b59fSTomas Winkler u32 ctrl;
122932e2b59fSTomas Winkler
123032e2b59fSTomas Winkler /* SATT is limited to 36 Bits */
123132e2b59fSTomas Winkler if (hi32 & ~0xF)
123232e2b59fSTomas Winkler return -EINVAL;
123332e2b59fSTomas Winkler
123432e2b59fSTomas Winkler /* SATT has to be 16Byte aligned */
123532e2b59fSTomas Winkler if (lo32 & 0xF)
123632e2b59fSTomas Winkler return -EINVAL;
123732e2b59fSTomas Winkler
123832e2b59fSTomas Winkler /* SATT range has to be 4Bytes aligned */
123932e2b59fSTomas Winkler if (range & 0x4)
124032e2b59fSTomas Winkler return -EINVAL;
124132e2b59fSTomas Winkler
124232e2b59fSTomas Winkler /* SATT is limited to 32 MB range*/
124332e2b59fSTomas Winkler if (range > SATT_RANGE_MAX)
124432e2b59fSTomas Winkler return -EINVAL;
124532e2b59fSTomas Winkler
124632e2b59fSTomas Winkler ctrl = SATT2_CTRL_VALID_MSK;
124732e2b59fSTomas Winkler ctrl |= hi32 << SATT2_CTRL_BR_BASE_ADDR_REG_SHIFT;
124832e2b59fSTomas Winkler
124932e2b59fSTomas Winkler mei_txe_br_reg_write(hw, SATT2_SAP_SIZE_REG, range);
125032e2b59fSTomas Winkler mei_txe_br_reg_write(hw, SATT2_BRG_BA_LSB_REG, lo32);
125132e2b59fSTomas Winkler mei_txe_br_reg_write(hw, SATT2_CTRL_REG, ctrl);
12522bf94cabSTomas Winkler dev_dbg(dev->dev, "SATT2: SAP_SIZE_OFFSET=0x%08X, BRG_BA_LSB_OFFSET=0x%08X, CTRL_OFFSET=0x%08X\n",
125332e2b59fSTomas Winkler range, lo32, ctrl);
125432e2b59fSTomas Winkler
125532e2b59fSTomas Winkler return 0;
125632e2b59fSTomas Winkler }
1257