xref: /freebsd/sys/contrib/alpine-hal/al_hal_pcie.h (revision ebacd8013fe5f7fdf9f6a5b286f6680dd2891036)
1 /*-
2 ********************************************************************************
3 Copyright (C) 2015 Annapurna Labs Ltd.
4 
5 This file may be licensed under the terms of the Annapurna Labs Commercial
6 License Agreement.
7 
8 Alternatively, this file can be distributed under the terms of the GNU General
9 Public License V2 as published by the Free Software Foundation and can be
10 found at http://www.gnu.org/licenses/gpl-2.0.html
11 
12 Alternatively, redistribution and use in source and binary forms, with or
13 without modification, are permitted provided that the following conditions are
14 met:
15 
16     *     Redistributions of source code must retain the above copyright notice,
17 this list of conditions and the following disclaimer.
18 
19     *     Redistributions in binary form must reproduce the above copyright
20 notice, this list of conditions and the following disclaimer in
21 the documentation and/or other materials provided with the
22 distribution.
23 
24 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
25 ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
26 WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
27 DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
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29 (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
30 LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
31 ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
32 (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
33 SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
34 
35 *******************************************************************************/
36 
37 /**
38  * @defgroup grouppcie PCI Express Controller
39  *  @{
40  * @section overview Overview
41  * This header file provide API for the HAL driver of the pcie port, the driver
42  * provides the following functionalities:
43  * - Port initialization
44  * - Link operation
45  * - Interrupts transactions generation (Endpoint mode).
46  * - Configuration Access management functions
47  * - Internal Translation Unit programming
48  *
49  * This API does not provide the following:
50  * - PCIe transactions generation and reception (except interrupts as mentioned
51  *   above) as this functionality is done by the port without need for sw
52  *   intervention.
53  * - Configuration Access: those transactions are generated automatically by
54  *   the port (ECAM or ATU mode) when the CPU issues memory transaction
55  *   through the fabric toward the PCIe port. This API provides management
56  *   function for controlling the Configuration Access type and bus destination
57  * - Interrupt Handling.
58  * - Message Generation: common used messages are automatically generated, also,
59  *   the ATU generic mechanism for generating various kind of messages.
60  * - PCIe Port Management: both link and port power management features can be
61  *   managed using the PCI/PCIe standard power management and PCIe capabilities
62  *   registers.
63  * - PCIe link and protocol error handling: the feature can be managed using
64  *   the Advanced Error Handling PCIe capability registers.
65  *
66  * @section flows Software Flows
67  * @subsection init Initialization
68  *   - allocation and set zeros al_pcie_port and al_pcie_pf structures handles
69  *   - call al_pcie_port_handle_init() with pointer to the allocated
70  *     al_pcie_port handle, address of the port internal registers space, and
71  *     port id.
72  *   - call al_pcie_pf_handle_init() with pointer to the al_pcie_port handle
73  *     and pf_number.
74  *   - set the port mode, End-Point or Root-Compex (default).
75  *   - set number of lanes connected to the controller.
76  *   - enable the controller using the al_pcie_port_enable(). note that this
77  *     function expect the virtual address of the PBS Functional Registers.
78  *   - wait for 2000 South-bridge cycles.
79  *   - prepare al_pcie_port_config_params and al_pcie_pf_config_params
80  *     structures depending on chip, board and system configuration.
81  *     for example, when using the port as root complex, the operating_mode
82  *     field should be set to AL_PCIE_OPERATING_MODE_RC. In this example we
83  *     prepare the following configuration:
84  *     For port configuration
85  *     - Root Complex mode
86  *     - Set the Max Link Speed to Gen2
87  *     - Set the max lanes width to 2 (x2)
88  *     - Enable Snoops to support I/O Hardware cache coherency
89  *     - Enable pcie core RAM parity
90  *     - Enable pcie core AXI parity
91  *     - Keep transaction layer default credits
92  *     For pf configuration
93  *     - No EP parameters
94  *     - No SR-IOV parameters
95  *     so the structures we prepare:
96  *     @code
97  *     - struct al_pcie_link_params link_params = {
98  *		AL_PCIE_LINK_SPEED_GEN2,
99  *		AL_PCIE_MPS_DEFAULT};
100  *
101  *     - struct al_pcie_port_config_params config_params = {
102  *		&link_params,
103  *		AL_TRUE, // enable Snoop for inbound memory transactions
104  *		AL_TRUE, // enable pcie port RAM parity
105  *		AL_TRUE, // enable pcie port AXI parity
106  *		NULL, // use default latency/replay timers
107  *		NULL, // use default gen2 pipe params
108  *		NULL, // gen3_params not needed when max speed set to Gen2
109  *		NULL, // don't change TL credits
110  *		NULL, // end point params not needed
111  *		AL_FALSE, //no fast link
112  *		AL_FALSE};	//return 0xFFFFFFFF for read transactions with
113  *				//pci target error
114  *	@endcode
115  *	- now call al_pcie_port_config() with pcie_port and port_config_params
116  * @subsection link-init Link Initialization
117  *  - once the port configured, we can start PCIe link:
118  *  - call al_pcie_link_start()
119  *  - call al_pcie_link_up_wait()
120  *  - allocate al_pcie_link_status struct and call al_pcie_link_status() and
121  *    check the link is established.
122  *
123  *  @subsection  cap Configuration Access Preparation
124  *  - Once the link is established, we can prepare the port for pci
125  *  configuration access, this stage requires system knowledge about the PCI
126  *  buses enumeration. For example, if 5 buses were discovered on previously
127  *  scanned root complex port, then we should start enumeration from bus 5 (PCI
128  *  secondary bus), the sub-ordinary bus will be temporarily set to maximum
129  *  value (255) until the scan process under this bus is finished, then it will
130  *  updated to the maximum bus value found. So we use the following sequence:
131  *  - call al_pcie_secondary_bus_set() with sec-bus = 5
132  *  - call al_pcie_subordinary_bus_set() with sub-bus = 255
133  *
134  *  @subsection cfg Configuration (Cfg) Access Generation
135  *  - we assume using ECAM method, in this method, the software issues pcie Cfg
136  *  access by accessing the ECAM memory space of the pcie port. For example, to
137  *  issue 4 byte Cfg Read from bus B, Device D, Function F and register R, the
138  *  software issues 4 byte read access to the following physical address
139  *  ECAM base address of the port + (B << 20) + (D << 15) + (F << 12) + R.
140  *  But, as the default size of the ECAM address space is less than
141  *  needed full range (256MB), we modify the target_bus value prior to Cfg
142  *  access in order make the port generate Cfg access with bus value set to the
143  *  value of the target_bus rather than bits 27:20 of the physical address.
144  *  - call al_pcie_target_bus_set() with target_bus set to the required bus of
145  *   the next Cfg access to be issued, mask_target_bus will be set to 0xff.
146  *   no need to call that function if the next Cfg access bus equals to the last
147  *   value set to target_bus.
148  *
149  *      @file  al_hal_pcie.h
150  *      @brief HAL Driver Header for the Annapurna Labs PCI Express port.
151  */
152 
153 #ifndef _AL_HAL_PCIE_H_
154 #define _AL_HAL_PCIE_H_
155 
156 #include "al_hal_common.h"
157 #include "al_hal_pcie_regs.h"
158 
159 /******************************************************************************/
160 /********************************* Constants **********************************/
161 /******************************************************************************/
162 
163 /**
164  * PCIe Core revision IDs:
165  *     ID_1: Alpine V1
166  *     ID_2: Alpine V2 x4
167  *     ID_3: Alpine V2 x8
168  */
169 #define AL_PCIE_REV_ID_1			1
170 #define AL_PCIE_REV_ID_2			2
171 #define AL_PCIE_REV_ID_3			3
172 
173 /** Number of extended registers */
174 #define AL_PCIE_EX_REGS_NUM				40
175 
176 /*******************************************************************************
177  * The inbound flow control for headers is programmable per P, NP and CPL
178  * transactions types. The following parameters define the total number of
179  * available header flow controls for all types.
180  ******************************************************************************/
181 /** Inbound header credits sum - rev1/2 */
182 #define AL_PCIE_REV_1_2_IB_HCRD_SUM			97
183 /** Inbound header credits sum - rev3 */
184 #define AL_PCIE_REV3_IB_HCRD_SUM			259
185 
186 /*******************************************************************************
187  * PCIe AER uncorrectable error bits
188  * To be used with the following functions:
189  * - al_pcie_aer_config
190  * - al_pcie_aer_uncorr_get_and_clear
191  ******************************************************************************/
192 /** Data Link Protocol Error */
193 #define AL_PCIE_AER_UNCORR_DLP_ERR			AL_BIT(4)
194 /** Poisoned TLP */
195 #define AL_PCIE_AER_UNCORR_POISIONED_TLP		AL_BIT(12)
196 /** Flow Control Protocol Error */
197 #define AL_PCIE_AER_UNCORR_FLOW_CTRL_ERR		AL_BIT(13)
198 /** Completion Timeout */
199 #define AL_PCIE_AER_UNCORR_COMPL_TO			AL_BIT(14)
200 /** Completer Abort */
201 #define AL_PCIE_AER_UNCORR_COMPL_ABT			AL_BIT(15)
202 /** Unexpected Completion */
203 #define AL_PCIE_AER_UNCORR_UNEXPCTED_COMPL		AL_BIT(16)
204 /** Receiver Overflow */
205 #define AL_PCIE_AER_UNCORR_RCV_OVRFLW			AL_BIT(17)
206 /** Malformed TLP */
207 #define AL_PCIE_AER_UNCORR_MLFRM_TLP			AL_BIT(18)
208 /** ECRC Error */
209 #define AL_PCIE_AER_UNCORR_ECRC_ERR			AL_BIT(19)
210 /** Unsupported Request Error */
211 #define AL_PCIE_AER_UNCORR_UNSUPRT_REQ_ERR		AL_BIT(20)
212 /** Uncorrectable Internal Error */
213 #define AL_PCIE_AER_UNCORR_INT_ERR			AL_BIT(22)
214 /** AtomicOp Egress Blocked */
215 #define AL_PCIE_AER_UNCORR_ATOMIC_EGRESS_BLK		AL_BIT(24)
216 
217 /*******************************************************************************
218  * PCIe AER correctable error bits
219  * To be used with the following functions:
220  * - al_pcie_aer_config
221  * - al_pcie_aer_corr_get_and_clear
222  ******************************************************************************/
223 /** Receiver Error */
224 #define AL_PCIE_AER_CORR_RCV_ERR			AL_BIT(0)
225 /** Bad TLP */
226 #define AL_PCIE_AER_CORR_BAD_TLP			AL_BIT(6)
227 /** Bad DLLP */
228 #define AL_PCIE_AER_CORR_BAD_DLLP			AL_BIT(7)
229 /** REPLAY_NUM Rollover */
230 #define AL_PCIE_AER_CORR_RPLY_NUM_ROLL_OVR		AL_BIT(8)
231 /** Replay Timer Timeout */
232 #define AL_PCIE_AER_CORR_RPLY_TMR_TO			AL_BIT(12)
233 /** Advisory Non-Fatal Error */
234 #define AL_PCIE_AER_CORR_ADVISORY_NON_FTL_ERR		AL_BIT(13)
235 /** Corrected Internal Error */
236 #define AL_PCIE_AER_CORR_INT_ERR			AL_BIT(14)
237 
238 /** The AER erroneous TLP header length [num DWORDs] */
239 #define AL_PCIE_AER_ERR_TLP_HDR_NUM_DWORDS		4
240 
241 /******************************************************************************/
242 /************************* Data Structures and Types **************************/
243 /******************************************************************************/
244 
245 /**
246  * al_pcie_ib_hcrd_config: data structure internally used in order to config
247  * inbound posted/non-posted parameters.
248  * Note: this is a private member in pcie_port handle and MUST NOT be modified
249  *       by the user.
250  */
251 struct al_pcie_ib_hcrd_config {
252 	/* Internally used - see 'al_pcie_ib_hcrd_os_ob_reads_config' */
253 	unsigned int	nof_np_hdr;
254 
255 	/* Internally used - see 'al_pcie_ib_hcrd_os_ob_reads_config' */
256 	unsigned int	nof_p_hdr;
257 };
258 
259 /* The Max Payload Size. Measured in bytes.
260  *   DEFAULT: do not change the current MPS
261  */
262 enum al_pcie_max_payload_size {
263 	AL_PCIE_MPS_DEFAULT,
264 	AL_PCIE_MPS_128		= 0,
265 	AL_PCIE_MPS_256		= 1,
266 };
267 
268 /**
269  * al_pcie_port: data structure used by the HAL to handle a specific pcie port.
270  * this structure is allocated and set to zeros by the upper layer, then it is
271  * initialized by the al_pcie_port_handle_init() that should be called before any
272  * other function of this API. later, this handle passed to the API functions.
273  */
274 struct al_pcie_port {
275 	void __iomem		*pcie_reg_base;
276 	struct al_pcie_regs 	regs_ptrs;
277 	struct al_pcie_regs	*regs;
278 	uint32_t		*ex_regs_ptrs[AL_PCIE_EX_REGS_NUM];
279 	void			*ex_regs;
280 	void __iomem		*pbs_regs;
281 
282 	/* Rev ID */
283 	uint8_t		rev_id;
284 	unsigned int	port_id;
285 	uint8_t		max_lanes;
286 
287 	/* For EP mode only */
288 	uint8_t		max_num_of_pfs;
289 
290 	/* Internally used */
291 	struct al_pcie_ib_hcrd_config ib_hcrd_config;
292 };
293 
294 /**
295  * al_pcie_pf: the pf handle, a data structure used to handle PF specific
296  * functionality. Initialized using "al_pcie_pf_handle_init()"
297  *
298  * Note: This structure should be used for EP mode only
299  */
300 struct al_pcie_pf {
301 	unsigned int		pf_num;
302 	struct al_pcie_port	*pcie_port;
303 };
304 
305 /** Operating mode (endpoint, root complex) */
306 enum al_pcie_operating_mode {
307 	AL_PCIE_OPERATING_MODE_EP,
308 	AL_PCIE_OPERATING_MODE_RC,
309 	AL_PCIE_OPERATING_MODE_UNKNOWN
310 };
311 
312 /* The maximum link speed, measured GT/s (Giga transfer / second)
313  *   DEFAULT: do not change the current speed
314  *   GEN1: 2.5 GT/s
315  *   GEN2: 5 GT/s
316  *   GEN3: 8GT/s
317  *
318  *   Note: The values of this enumerator are important for proper behavior
319  */
320 enum al_pcie_link_speed {
321 	AL_PCIE_LINK_SPEED_DEFAULT,
322 	AL_PCIE_LINK_SPEED_GEN1 = 1,
323 	AL_PCIE_LINK_SPEED_GEN2 = 2,
324 	AL_PCIE_LINK_SPEED_GEN3 = 3
325 };
326 
327 /** PCIe capabilities that supported by a specific port */
328 struct al_pcie_max_capability {
329 	al_bool		end_point_mode_supported;
330 	al_bool		root_complex_mode_supported;
331 	enum al_pcie_link_speed	max_speed;
332 	uint8_t		max_lanes;
333 	uint8_t		atu_regions_num;
334 	uint32_t	atu_min_size; /* Size granularity: 4 Kbytes */
335 };
336 
337 /** PCIe link related parameters */
338 struct al_pcie_link_params {
339 	enum al_pcie_link_speed		max_speed;
340 	enum al_pcie_max_payload_size	max_payload_size;
341 
342 };
343 
344 /** PCIe gen2 link parameters */
345 struct al_pcie_gen2_params {
346 	al_bool	tx_swing_low; /* set tx swing low when true, and tx swing full when false */
347 	al_bool	tx_compliance_receive_enable;
348 	al_bool	set_deemphasis;
349 };
350 
351 /** PCIe gen 3 standard per lane equalization parameters */
352 struct al_pcie_gen3_lane_eq_params {
353 	uint8_t		downstream_port_transmitter_preset;
354 	uint8_t		downstream_port_receiver_preset_hint;
355 	uint8_t		upstream_port_transmitter_preset;
356 	uint8_t		upstream_port_receiver_preset_hint;
357 };
358 
359 /** PCIe gen 3 equalization parameters */
360 struct al_pcie_gen3_params {
361 	al_bool	perform_eq;
362 	al_bool	interrupt_enable_on_link_eq_request;
363 	struct al_pcie_gen3_lane_eq_params *eq_params; /* array of lanes params */
364 	int	eq_params_elements; /* number of elements in the eq_params array */
365 
366 	al_bool	eq_disable; /* disables the equalization feature */
367 	al_bool eq_phase2_3_disable; /* Equalization Phase 2 and Phase 3 */
368 				     /* Disable (RC mode only) */
369 	uint8_t local_lf; /* Full Swing (FS) Value for Gen3 Transmit Equalization */
370 			  /* Value Range: 12 through 63 (decimal).*/
371 
372 	uint8_t	local_fs; /* Low Frequency (LF) Value for Gen3 Transmit Equalization */
373 };
374 
375 /**
376  * Inbound posted/non-posted header credits and outstanding outbound reads
377  * completion header configuration.
378  *
379  * This structure controls the resource partitioning of an important resource in
380  * the PCIe port. This resource includes the PCIe TLP headers coming on the PCIe
381  * port, and is shared between three types:
382  *  - Inbound Non-posted, which are PCIe Reads as well as PCIe Config Cycles
383  *  - Inbound Posted, i.e. PCIe Writes
384  *  - Inbound Read-completion, which are the completions matching and outbound
385  *    reads issued previously by the same core.
386  * The programmer need to take into consideration that a given outbound read
387  * request could be split on the return path into Ceiling[MPS_Size / 64] + 1
388  * of Read Completions.
389  * Programmers are not expected to modify these setting except for rare cases,
390  * where a different ratio between Posted-Writes and Read-Completions is desired
391  *
392  * Constraints:
393  * - nof_cpl_hdr + nof_np_hdr + nof_p_hdr ==
394  *			AL_PCIE_REV_1_2_IB_HCRD_SUM/AL_PCIE_REV3_IB_HCRD_SUM
395  * - nof_cpl_hdr > 0
396  * - nof_p_hdr > 0
397  * - nof_np_hdr > 0
398  */
399 struct al_pcie_ib_hcrd_os_ob_reads_config {
400 	/** Max number of outstanding outbound reads */
401 	uint8_t nof_outstanding_ob_reads;
402 
403 	/**
404 	 * This value set the possible outstanding headers CMPLs , the core
405 	 * can get (the core always advertise infinite credits for CMPLs).
406 	 */
407 	unsigned int nof_cpl_hdr;
408 
409 	/**
410 	 * This value set the possible outstanding headers reads (non-posted
411 	 * transactions), the core can get  (it set the value in the init FC
412 	 * process).
413 	 */
414 	unsigned int nof_np_hdr;
415 
416 	/**
417 	 * This value set the possible outstanding headers writes (posted
418 	 * transactions), the core can get  (it set the value in the init FC
419 	 * process).
420 	 */
421 	unsigned int nof_p_hdr;
422 };
423 
424 /**
425  * PCIe Ack/Nak Latency and Replay timers
426  *
427  * Note: Programmer is not expected to modify these values unless working in
428  *       very slow external devices like low-end FPGA or hardware devices
429  *       emulated in software
430  */
431 struct al_pcie_latency_replay_timers {
432 	uint16_t	round_trip_lat_limit;
433 	uint16_t	replay_timer_limit;
434 };
435 
436 /**
437  * SRIS KP counter values
438  *
439  * Description: SRIS is PCI SIG ECN, that enables the two peers on a given PCIe
440  * link to run with Separate Reference clock with Independent Spread spectrum
441  * clock and requires inserting PCIe SKP symbols on the link in faster frequency
442  * that original PCIe spec
443  */
444 struct al_pcie_sris_params {
445 	/** set to AL_TRUE to use defaults and ignore the other parameters */
446 	al_bool		use_defaults;
447 	uint16_t	kp_counter_gen3;	/* only for Gen3 */
448 	uint16_t	kp_counter_gen21;
449 };
450 
451 /**
452  * Relaxed ordering params
453  * Enable ordering relaxations for applications that does not require
454  * enforcement of 'completion must not bypass posted' ordering rule.
455  *
456  * Recommendation:
457  *  - For downstream port, set enable_tx_relaxed_ordering
458  *  - For upstream port
459  *     - set enable_rx_relaxed_ordering
460  *     - set enable tx_relaxed_ordering for emulated EP.
461  *
462  * Defaults:
463  *  - For Root-Complex:
464  *     - tx_relaxed_ordering = AL_FALSE, rx_relaxed_ordering = AL_TRUE
465  *  - For End-Point:
466  *     - tx_relaxed_ordering = AL_TRUE, rx_relaxed_ordering = AL_FALSE
467  */
468 struct al_pcie_relaxed_ordering_params {
469 	al_bool		enable_tx_relaxed_ordering;
470 	al_bool		enable_rx_relaxed_ordering;
471 };
472 
473 /** PCIe port configuration parameters
474  * This structure includes the parameters that the HAL should apply to the port
475  * (by al_pcie_port_config()).
476  * The fields that are pointers (e.g. link_params) can be set to NULL, in that
477  * case, the al_pcie_port_config() will keep the current HW settings.
478  */
479 struct al_pcie_port_config_params {
480 	struct al_pcie_link_params		*link_params;
481 	al_bool					enable_axi_snoop;
482 	al_bool					enable_ram_parity_int;
483 	al_bool					enable_axi_parity_int;
484 	struct al_pcie_latency_replay_timers	*lat_rply_timers;
485 	struct al_pcie_gen2_params		*gen2_params;
486 	struct al_pcie_gen3_params		*gen3_params;
487 	/*
488 	 * Sets all internal timers to Fast Mode for speeding up simulation.
489 	 * this varible should be set always to AL_FALSE unless user is running
490 	 * on simulation setup
491 	 */
492 	al_bool					fast_link_mode;
493 	/*
494 	 * when true, the PCI unit will return Slave Error/Decoding Error to any
495 	 * I/O Fabric master or Internal Processors in case of error.
496 	 * when false, the value 0xFFFFFFFF will be returned without error indication.
497 	 */
498 	al_bool					enable_axi_slave_err_resp;
499 	struct al_pcie_sris_params		*sris_params;
500 	struct al_pcie_relaxed_ordering_params	*relaxed_ordering_params;
501 };
502 
503 /**
504  * BAR register configuration parameters
505  * Note: This structure should be used for EP mode only
506  */
507 struct al_pcie_ep_bar_params {
508 	al_bool		enable;
509 	al_bool		memory_space; /**< memory or io */
510 	al_bool		memory_64_bit; /**< is memory space is 64 bit */
511 	al_bool		memory_is_prefetchable;
512 	uint64_t	size; /* the bar size in bytes */
513 };
514 
515 /**
516  * PF config params (EP mode only)
517  * Note: This structure should be used for EP mode only
518  */
519 struct al_pcie_pf_config_params {
520 	/**
521 	 * disable advertising D1 and D3hot state
522 	 * Recommended to be AL_TRUE
523 	 */
524 	al_bool				cap_d1_d3hot_dis;
525 	/**
526 	 * disable advertising support for Function-Level-Reset
527 	 * Recommended to be AL_FALSE
528 	 */
529 	al_bool				cap_flr_dis;
530 	/*
531 	 * disable advertising Advanced power management states
532 	 */
533 	al_bool				cap_aspm_dis;
534 	al_bool				bar_params_valid;
535 	/*
536 	 * Note: only bar_params[0], [2] and [4] can have memory_64_bit enabled
537 	 * and in such case, the next bar ([1], [3], or [5] respectively) is not used
538 	 */
539 	struct al_pcie_ep_bar_params	bar_params[6];
540 	struct al_pcie_ep_bar_params	exp_bar_params;/* expansion ROM BAR*/
541 };
542 
543 /** PCIe link status */
544 struct al_pcie_link_status {
545 	al_bool			link_up;
546 	enum al_pcie_link_speed	speed;
547 	uint8_t			lanes; /* Number of lanes */
548 	uint8_t			ltssm_state;
549 };
550 
551 /** PCIe lane status */
552 struct al_pcie_lane_status {
553 	al_bool			is_reset;
554 	enum al_pcie_link_speed	requested_speed;
555 };
556 
557 /**
558  * PCIe MSIX capability configuration parameters
559  * Note: This structure should be used for EP mode only
560  */
561 struct al_pcie_msix_params {
562 	/* Number of entries - size can be up to: 2024 */
563 	uint16_t	table_size;
564 	uint16_t	table_offset;
565 	uint8_t		table_bar;
566 	uint16_t	pba_offset;
567 	/* which bar to use when calculating the PBA table address and adding offset to */
568 	uint16_t	pba_bar;
569 };
570 
571 /** PCIE AER capability parameters */
572 struct al_pcie_aer_params {
573 	/** ECRC Generation Enable
574 	 *  while this feature is powerful, all known Chip-sets and processors
575 	 *  do not support it as of 2015
576 	 */
577 	al_bool		ecrc_gen_en;
578 	/** ECRC Check Enable */
579 	al_bool		ecrc_chk_en;
580 
581 	/**
582 	 * Enabled reporting of correctable errors (bit mask)
583 	 * See 'AL_PCIE_AER_CORR_*' for details
584 	 * 0 - no reporting at all
585 	 */
586 	unsigned int	enabled_corr_err;
587 	/**
588 	 * Enabled reporting of non-fatal uncorrectable errors (bit mask)
589 	 * See 'AL_PCIE_AER_UNCORR_*' for details
590 	 * 0 - no reporting at all
591 	 */
592 	unsigned int	enabled_uncorr_non_fatal_err;
593 	/**
594 	 * Enabled reporting of fatal uncorrectable errors (bit mask)
595 	 * See 'AL_PCIE_AER_UNCORR_*' for details
596 	 * 0 - no reporting at all
597 	 */
598 	unsigned int	enabled_uncorr_fatal_err;
599 };
600 
601 /******************************************************************************/
602 /********************************** PCIe API **********************************/
603 /******************************************************************************/
604 
605 /*************************** PCIe Initialization API **************************/
606 
607 /**
608  * Initializes a PCIe port handle structure.
609  *
610  * @param   pcie_port		an allocated, non-initialized instance.
611  * @param   pcie_reg_base	the virtual base address of the port internal
612  *				registers
613  * @param   pbs_reg_base	the virtual base address of the pbs functional
614  *				registers
615  * @param   port_id		the port id (used mainly for debug messages)
616  *
617  * @return 0 if no error found.
618  */
619 int al_pcie_port_handle_init(struct al_pcie_port *pcie_port,
620 			 void __iomem *pcie_reg_base,
621 			 void __iomem *pbs_reg_base,
622 			 unsigned int port_id);
623 
624 /**
625  * Initializes a PCIe pf handle structure
626  * @param  pcie_pf   an allocated, non-initialized instance of pf handle
627  * @param  pcie_port pcie port handle
628  * @param  pf_num    physical function number
629  * @return           0 if no error found
630  */
631 int al_pcie_pf_handle_init(
632 	struct al_pcie_pf *pcie_pf,
633 	struct al_pcie_port *pcie_port,
634 	unsigned int pf_num);
635 
636 /**
637  * Get port revision ID
638  * @param  pcie_port pcie port handle
639  * @return           Port rev_id
640  */
641 int al_pcie_port_rev_id_get(struct al_pcie_port *pcie_port);
642 
643 /************************** Pre PCIe Port Enable API **************************/
644 
645 /**
646  * @brief set current pcie operating mode (root complex or endpoint)
647  * This function can be called only before enabling the controller using
648  * al_pcie_port_enable().
649  *
650  * @param pcie_port pcie port handle
651  * @param mode pcie operating mode
652  *
653  * @return 0 if no error found.
654  */
655 int al_pcie_port_operating_mode_config(struct al_pcie_port *pcie_port,
656 				  enum al_pcie_operating_mode mode);
657 
658 /**
659  * Configure number of lanes connected to this port.
660  * This function can be called only before enabling the controller using al_pcie_port_enable().
661  *
662  * @param pcie_port pcie port handle
663  * @param lanes number of lanes  (must be 1,2,4,8,16  and not any other value)
664  *
665  * Note: this function must be called before any al_pcie_port_config() calls
666  *
667  * @return 0 if no error found.
668  */
669 int al_pcie_port_max_lanes_set(struct al_pcie_port *pcie_port, uint8_t lanes);
670 
671 /**
672  * Set maximum physical function numbers
673  * @param pcie_port      pcie port handle
674  * @param max_num_of_pfs number of physical functions
675  *
676  * Notes:
677  *  - this function must be called before any al_pcie_pf_config() calls
678  *  - exposed on a given PCIe Endpoint port
679  *  - PCIe rev1/rev2 supports only single Endpoint
680  *  - PCIe rev3 can support up to 4
681  */
682 int al_pcie_port_max_num_of_pfs_set(
683 	struct al_pcie_port *pcie_port,
684 	uint8_t max_num_of_pfs);
685 
686 /**
687  * @brief Inbound posted/non-posted header credits and outstanding outbound
688  *        reads completion header configuration
689  *
690  * @param	pcie_port pcie port handle
691  * @param	ib_hcrd_os_ob_reads_config
692  * 		Inbound header credits and outstanding outbound reads
693  * 		configuration
694  */
695 int al_pcie_port_ib_hcrd_os_ob_reads_config(
696 	struct al_pcie_port *pcie_port,
697 	struct al_pcie_ib_hcrd_os_ob_reads_config *ib_hcrd_os_ob_reads_config);
698 
699 /** return PCIe operating mode
700  * @param pcie_port	pcie port handle
701  * @return		operating mode
702  */
703 enum al_pcie_operating_mode al_pcie_operating_mode_get(
704 	struct al_pcie_port *pcie_port);
705 
706 /**
707  * PCIe AXI quality of service configuration
708  *
709  * @param	pcie_port
710  *		Initialized PCIe port handle
711  * @param	arqos
712  *		AXI read quality of service (0 - 15)
713  * @param	awqos
714  *		AXI write quality of service (0 - 15)
715  */
716 void al_pcie_axi_qos_config(
717 	struct al_pcie_port	*pcie_port,
718 	unsigned int		arqos,
719 	unsigned int		awqos);
720 
721 /**************************** PCIe Port Enable API ****************************/
722 
723 /**
724  *  Enable PCIe unit (deassert reset)
725  *  This function only enables the port, without any configuration/link
726  *  functionality. Should be called before starting any configuration/link API
727  *
728  * @param   pcie_port pcie port handle
729  *
730  * @return 0 if no error found.
731  */
732 int al_pcie_port_enable(struct al_pcie_port *pcie_port);
733 
734 /** Disable PCIe unit (assert reset)
735  *
736  * @param   pcie_port pcie port handle
737  */
738 void al_pcie_port_disable(struct al_pcie_port *pcie_port);
739 
740 /**
741  * Port memory shutdown/up
742  * Memory shutdown should be called for an unused ports for power-saving
743  *
744  * Caution: This function can be called only when the controller is disabled
745  *
746  * @param pcie_port pcie port handle
747  * @param enable memory shutdown enable or disable
748  *
749  */
750 int al_pcie_port_memory_shutdown_set(
751 	struct al_pcie_port	*pcie_port,
752 	al_bool			enable);
753 
754 /**
755  * Check if port enabled or not
756  * @param  pcie_port pcie port handle
757  * @return           AL_TRUE of port enabled and AL_FALSE otherwise
758  */
759 al_bool al_pcie_port_is_enabled(struct al_pcie_port *pcie_port);
760 
761 /*************************** PCIe Configuration API ***************************/
762 
763 /**
764  * @brief   configure pcie port (mode, link params, etc..)
765  * this function must be called before initializing the link
766  *
767  * @param pcie_port pcie port handle
768  * @param params configuration structure.
769  *
770  * @return  0 if no error found
771  */
772 int al_pcie_port_config(struct al_pcie_port *pcie_port,
773 			const struct al_pcie_port_config_params *params);
774 
775 /**
776  * @brief Configure a specific PF
777  * this function must be called before any datapath transactions
778  *
779  * @param pcie_pf	pcie pf handle
780  * @param params	configuration structure.
781  *
782  * @return		0 if no error found
783  */
784 int al_pcie_pf_config(
785 	struct al_pcie_pf *pcie_pf,
786 	const struct al_pcie_pf_config_params *params);
787 
788 /************************** PCIe Link Operations API **************************/
789 
790 /**
791  * @brief   start pcie link
792  * This function starts the link and should be called only after port is enabled
793  * and pre port-enable and configurations are done
794  * @param   pcie_port pcie port handle
795  *
796  * @return  0 if no error found
797  */
798 int al_pcie_link_start(struct al_pcie_port *pcie_port);
799 
800 /**
801  * @brief   stop pcie link
802  *
803  * @param   pcie_port pcie port handle
804  *
805  * @return  0 if no error found
806  */
807 int al_pcie_link_stop(struct al_pcie_port *pcie_port);
808 
809 /**
810  * @brief   check if pcie link is started
811  * Note that this function checks if link is started rather than link is up
812  * @param  pcie_port pcie port handle
813  * @return           AL_TRUE if link is started and AL_FALSE otherwise
814  */
815 al_bool al_pcie_is_link_started(struct al_pcie_port *pcie_port);
816 
817 /**
818  * @brief   trigger link-disable
819  *
820  * @param   pcie_port pcie port handle
821  * @param   disable   AL_TRUE to disable the link and AL_FALSE to enable it
822  *
823  * Note: this functionality differs from "al_pcie_link_stop" as it's a spec
824  *       functionality where both sides of the PCIe agrees to disable the link
825  * @return  0 if no error found
826  */
827 int al_pcie_link_disable(struct al_pcie_port *pcie_port, al_bool disable);
828 
829 /**
830  * @brief   wait for link up indication
831  * this function waits for link up indication, it polls LTSSM state until link is ready
832  *
833  * @param   pcie_port pcie port handle
834  * @param   timeout_ms maximum timeout in milli-seconds to wait for link up
835  *
836  * @return  0 if link up indication detected
837  * 	    -ETIME if not.
838  */
839 int al_pcie_link_up_wait(struct al_pcie_port *pcie_port, uint32_t timeout_ms);
840 
841 /**
842  * @brief   get link status
843  *
844  * @param   pcie_port pcie port handle
845  * @param   status structure for link status
846  *
847  * @return  0 if no error found
848  */
849 int al_pcie_link_status(struct al_pcie_port *pcie_port, struct al_pcie_link_status *status);
850 
851 /**
852  * @brief   get lane status
853  *
854  * @param	pcie_port
855  *		pcie port handle
856  * @param	lane
857  *		PCIe lane
858  * @param	status
859  *		Pointer to returned structure for lane status
860  *
861  */
862 void al_pcie_lane_status_get(
863 	struct al_pcie_port		*pcie_port,
864 	unsigned int			lane,
865 	struct al_pcie_lane_status	*status);
866 
867 /**
868  * @brief   trigger hot reset
869  * this function initiates In-Band reset while link is up.
870  * to initiate hot reset: call this function with AL_TRUE
871  * to exit from hos reset: call this function with AL_FALSE
872  * Note: This function should be called in RC mode only
873  *
874  * @param   pcie_port pcie port handle
875  * @param   enable   AL_TRUE to enable hot-reset and AL_FALSE to disable it
876  *
877  * @return  0 if no error found
878  */
879 int al_pcie_link_hot_reset(struct al_pcie_port *pcie_port, al_bool enable);
880 
881 /**
882  * @brief   trigger link-retain
883  * this function initiates Link retraining by directing the Physical Layer LTSSM
884  * to the Recovery state. If the LTSSM is already in Recovery or Configuration,
885  * re-entering Recovery is permitted but not required.
886  * Note: This function should be called in RC mode only
887 
888  * @param   pcie_port pcie port handle
889  *
890  * Note: there's no need to disable initiating link-retrain
891  * @return  0 if no error found
892  */
893 int al_pcie_link_retrain(struct al_pcie_port *pcie_port);
894 
895 /**
896  * @brief   change port speed
897  * this function changes the port speed, it doesn't wait for link re-establishment
898  *
899  * @param   pcie_port pcie port handle
900  * @param   new_speed the new speed gen to set
901  *
902  * @return  0 if no error found
903  */
904 int al_pcie_link_change_speed(struct al_pcie_port *pcie_port, enum al_pcie_link_speed new_speed);
905 
906 /* TODO: check if this function needed */
907 int al_pcie_link_change_width(struct al_pcie_port *pcie_port, uint8_t width);
908 
909 /**************************** Post Link Start API *****************************/
910 
911 /************************** Snoop Configuration API ***************************/
912 
913 /**
914  * @brief configure pcie port axi snoop
915  * This enable the inbound PCIe posted write data or the Read completion data to
916  * snoop the internal processor caches for I/O cache coherency
917  *
918  * @param pcie_port pcie port handle
919  * @param enable_axi_snoop enable snoop.
920  *
921  * @return  0 if no error found
922  */
923 /* TODO: Can this API be called after port enable? */
924 int al_pcie_port_snoop_config(struct al_pcie_port *pcie_port,
925 				al_bool enable_axi_snoop);
926 
927 /************************** Configuration Space API ***************************/
928 
929 /**
930  * Configuration Space Access Through PCI-E_ECAM_Ext PASW
931  * This feature enables the internal processors to generate configuration cycles
932  * on the PCIe ports by writing to part of the processor memory space marked by
933  * the PCI-E_EXCAM_Ext address window
934  */
935 
936 /**
937  * @brief   get base address of pci configuration space header
938  * @param   pcie_pf	pcie pf handle
939  * @param   addr	pointer for returned address;
940  * @return              0 if no error found
941  */
942 int al_pcie_config_space_get(
943 	struct al_pcie_pf *pcie_pf,
944 	uint8_t __iomem **addr);
945 
946 /**
947  * Read data from the local configuration space
948  *
949  * @param	pcie_pf	pcie	pf handle
950  * @param	reg_offset	Configuration space register offset
951  * @return	Read data
952  */
953 uint32_t al_pcie_local_cfg_space_read(
954 	struct al_pcie_pf	*pcie_pf,
955 	unsigned int		reg_offset);
956 
957 /**
958  * Write data to the local configuration space
959  *
960  * @param	pcie_pf		PCIe pf handle
961  * @param	reg_offset	Configuration space register offset
962  * @param	data		Data to write
963  * @param	cs2		Should be AL_TRUE if dbi_cs2 must be asserted
964  *				to enable writing to this register, according to
965  *				the PCIe Core specifications
966  * @param	allow_ro_wr	AL_TRUE to allow writing into read-only regs
967  *
968  */
969 void al_pcie_local_cfg_space_write(
970 	struct al_pcie_pf	*pcie_pf,
971 	unsigned int		reg_offset,
972 	uint32_t		data,
973 	al_bool			cs2,
974 	al_bool			allow_ro_wr);
975 
976 /**
977  * @brief   set target_bus and mask_target_bus
978  *
979  * Call this function with target_bus set to the required bus of the next
980  * outbound config access to be issued. No need to call that function if the
981  * next config access bus equals to the last one.
982  *
983  * @param   pcie_port pcie port handle
984  * @param   target_bus
985  * @param   mask_target_bus
986  * @return  0 if no error found
987  */
988 int al_pcie_target_bus_set(struct al_pcie_port *pcie_port,
989 			   uint8_t target_bus,
990 			   uint8_t mask_target_bus);
991 
992 /**
993  * @brief   get target_bus and mask_target_bus
994  * @param   pcie_port pcie port handle
995  * @param   target_bus
996  * @param   mask_target_bus
997  * @return  0 if no error found
998  */
999 int al_pcie_target_bus_get(struct al_pcie_port *pcie_port,
1000 			   uint8_t *target_bus,
1001 			   uint8_t *mask_target_bus);
1002 
1003 /**
1004  * Set secondary bus number
1005  *
1006  * Same as al_pcie_target_bus_set but with secondary bus
1007  *
1008  * @param pcie_port pcie port handle
1009  * @param secbus pci secondary bus number
1010  *
1011  * @return 0 if no error found.
1012  */
1013 int al_pcie_secondary_bus_set(struct al_pcie_port *pcie_port, uint8_t secbus);
1014 
1015 /**
1016  * Set subordinary bus number
1017  *
1018  * Same as al_pcie_target_bus_set but with subordinary bus
1019  *
1020  * @param   pcie_port pcie port handle
1021  * @param   subbus the highest bus number of all of the buses that can be reached
1022  *		downstream of the PCIE instance.
1023  *
1024  * @return 0 if no error found.
1025  */
1026 int al_pcie_subordinary_bus_set(struct al_pcie_port *pcie_port,uint8_t subbus);
1027 
1028 /**
1029  * @brief Enable/disable deferring incoming configuration requests until
1030  * initialization is complete. When enabled, the core completes incoming
1031  * configuration requests with a Configuration Request Retry Status.
1032  * Other incoming non-configuration Requests complete with Unsupported Request status.
1033  *
1034  * Note: This function should be used for EP mode only
1035  *
1036  * @param pcie_port pcie port handle
1037  * @param en enable/disable
1038  */
1039 void al_pcie_app_req_retry_set(struct al_pcie_port *pcie_port, al_bool en);
1040 
1041 /**
1042  * @brief  Check if deferring incoming configuration requests is enabled or not
1043  * @param  pcie_port pcie port handle
1044  * @return           AL_TRUE is it's enabled and AL_FALSE otherwise
1045  */
1046 al_bool al_pcie_app_req_retry_get_status(struct al_pcie_port	*pcie_port);
1047 
1048 /*************** Internal Address Translation Unit (ATU) API ******************/
1049 
1050 enum al_pcie_atu_dir {
1051 	AL_PCIE_ATU_DIR_OUTBOUND = 0,
1052 	AL_PCIE_ATU_DIR_INBOUND = 1,
1053 };
1054 
1055 /** decoding of the PCIe TLP Type as appears on the wire */
1056 enum al_pcie_atu_tlp {
1057 	AL_PCIE_TLP_TYPE_MEM = 0,
1058 	AL_PCIE_TLP_TYPE_IO = 2,
1059 	AL_PCIE_TLP_TYPE_CFG0 = 4,
1060 	AL_PCIE_TLP_TYPE_CFG1 = 5,
1061 	AL_PCIE_TLP_TYPE_MSG = 0x10,
1062 	AL_PCIE_TLP_TYPE_RESERVED = 0x1f
1063 };
1064 
1065 /** default response types */
1066 enum al_pcie_atu_response {
1067 	AL_PCIE_RESPONSE_NORMAL = 0,
1068 	AL_PCIE_RESPONSE_UR = 1, /* UR == Unsupported Request */
1069 	AL_PCIE_RESPONSE_CA = 2  /* CA == Completion Abort    */
1070 };
1071 
1072 struct al_pcie_atu_region {
1073 
1074 	/**********************************************************************
1075 	 * General Parameters                                                 *
1076 	 **********************************************************************/
1077 
1078 	al_bool			enable;
1079 	/* outbound or inbound */
1080 	enum al_pcie_atu_dir	direction;
1081 	/* region index */
1082 	uint8_t			index;
1083 	/* the 64-bit address that get matched with the 64-bit address incoming
1084 	 * on the PCIe TLP
1085 	 */
1086 	uint64_t		base_addr;
1087 	/**
1088 	 * limit marks the region's end address.
1089 	 * For Alpine V1 (PCIe rev1): only bits [39:0] are valid
1090 	 * For Alpine V2 (PCIe rev2/rev3): only bits [47:0] are valid
1091 	 * an access is a hit in iATU if the:
1092 	 *   - address >= base_addr
1093 	 *   - address <= base_addr + limit
1094 	 */
1095 	uint64_t		limit;
1096 	/**
1097 	 * the address that matches (hit) will be translated to:
1098 	 * target_addr + offset
1099 	 *
1100 	 * Exmaple: accessing (base_addr + 0x1000) will be translated to:
1101 	 *                    (target_addr + 0x1000) in case limit >= 0x1000
1102 	 */
1103 	uint64_t		target_addr;
1104 	/**
1105 	 * When the Invert feature is activated, an address match occurs when
1106 	 * the untranslated address is not in the region bounded by the Base
1107 	 * address and Limit address. Match occurs when the untranslated address
1108 	 * is not in the region bounded by the base address and limit address
1109 	 */
1110 	al_bool			invert_matching;
1111 	/**
1112 	 * PCIe TLP type
1113 	 * Can be: Mem, IO, CGF0, CFG1 or MSG
1114 	 */
1115 	enum al_pcie_atu_tlp	tlp_type;
1116 	/**
1117 	 * PCIe frame header attr field.
1118 	 * When the address of a TLP is matched to this region, then the ATTR
1119 	 * field of the TLP is changed to the value in this register.
1120 	 */
1121 	uint8_t			attr;
1122 
1123 	/**********************************************************************
1124 	 * Outbound specific Parameters                                       *
1125 	 **********************************************************************/
1126 
1127 	/**
1128 	 * PCIe Message code
1129 	 * MSG TLPs (Message Code). When the address of an outbound TLP is
1130 	 * matched to this region, and the translated TLP TYPE field is Msg
1131 	 * then the message field of the TLP is changed to the value in this
1132 	 * register.
1133 	 */
1134 	uint8_t			msg_code;
1135 	/**
1136 	 * CFG Shift Mode. This is useful for CFG transactions where the PCIe
1137 	 * configuration mechanism maps bits [27:12] of the address to the
1138 	 * bus/device and function number. This allows a CFG configuration space
1139 	 * to be located in any 256MB window of your application memory space
1140 	 * using a 28-bit effective address.Shifts bits [27:12] of the
1141 	 * untranslated address to form bits [31:16] of the translated address.
1142 	 */
1143 	al_bool			cfg_shift_mode;
1144 
1145 	/**********************************************************************
1146 	 * Inbound specific Parameters                                        *
1147 	 **********************************************************************/
1148 
1149 	uint8_t			bar_number;
1150 	/**
1151 	 * Match Mode. Determines Inbound matching mode for TLPs. The mode
1152 	 * depends on the type of TLP that is received as follows:
1153 	 * MEM-I/O: 0 = Address Match Mode
1154 	 *          1 = BAR Match Mode
1155 	 * CFG0   : 0 = Routing ID Match Mode
1156 	 *          1 = Accept Mode
1157 	 * MSG    : 0 = Address Match Mode
1158 	 *          1 = Vendor ID Match Mode
1159 	 */
1160 	uint8_t			match_mode;
1161 	/**
1162 	 * For outbound:
1163 	 *  - AL_TRUE : enables taking the function number of the translated TLP
1164 	 *              from the PCIe core
1165 	 *  - AL_FALSE: no function number is taken from PCIe core
1166 	 * For inbound:
1167 	 *  - AL_TRUE : enables ATU function match mode
1168 	 *  - AL_FALSE: no function match mode applied to transactions
1169 	 *
1170 	 * Note: this boolean is ignored in RC mode
1171 	 */
1172 	al_bool			function_match_bypass_mode;
1173 	/**
1174 	 * The function number to match/bypass (see previous parameter)
1175 	 * Note: this parameter is ignored when previous parameter is AL_FALSE
1176 	 */
1177 	uint8_t			function_match_bypass_mode_number;
1178 	/**
1179 	 * setting up what is the default response for an inbound transaction
1180 	 * that matches the iATU
1181 	 */
1182 	enum al_pcie_atu_response response;
1183 	/**
1184 	 * Attr Match Enable. Ensures that a successful AT TLP field comparison
1185 	 * match (see attr above) occurs for address translation to proceed
1186 	 */
1187 	al_bool			enable_attr_match_mode;
1188 	/**
1189 	 * Message Code Match Enable(Msg TLPS). Ensures that a successful
1190 	 * message Code TLP field comparison match (see Message msg_code)occurs
1191 	 * (in MSG transactions) for address translation to proceed.
1192 	 */
1193 	al_bool			enable_msg_match_mode;
1194 	/**
1195 	 * USE WITH CAUTION: setting this boolean to AL_TRUE allows setting the
1196 	 * outbound ATU even after link is already started. DO NOT SET this
1197 	 * boolean to AL_TRUE unless there have been NO traffic before calling
1198 	 * al_pcie_atu_region_set function
1199 	 */
1200 	al_bool			enforce_ob_atu_region_set;
1201 };
1202 
1203 /**
1204  * @brief   program internal ATU region entry
1205  * @param   pcie_port	pcie port handle
1206  * @param   atu_region	data structure that contains the region index and the
1207  *          translation parameters
1208  * @return  0 if no error
1209  */
1210 int al_pcie_atu_region_set(
1211 	struct al_pcie_port *pcie_port,
1212 	struct al_pcie_atu_region *atu_region);
1213 
1214 /**
1215  * @brief  get internal ATU is enabled and base/target addresses
1216  * @param  pcie_port   pcie port handle
1217  * @param  direction   input: iATU direction (IB/OB)
1218  * @param  index       input: iATU index
1219  * @param  enable      output: AL_TRUE if the iATU is enabled
1220  * @param  base_addr   output: the iATU base address
1221  * @param  target_addr output: the iATU target address
1222  */
1223 void al_pcie_atu_region_get_fields(
1224 	struct al_pcie_port *pcie_port,
1225 	enum al_pcie_atu_dir direction, uint8_t index,
1226 	al_bool *enable, uint64_t *base_addr, uint64_t *target_addr);
1227 
1228 /**
1229  * @brief   Configure axi io bar.
1230  *
1231  * This is an EP feature, enabling PCIe IO transaction to be captured if it fits
1232  * within start and end address, and then mapped to internal 4-byte
1233  * memRead/memWrite. Every hit to this bar will override size to 4 bytes.
1234  *
1235  * @param   pcie_port pcie port handle
1236  * @param   start the first address of the memory
1237  * @param   end the last address of the memory
1238  * @return
1239  */
1240 void al_pcie_axi_io_config(
1241 	struct al_pcie_port *pcie_port,
1242 	al_phys_addr_t start,
1243 	al_phys_addr_t end);
1244 
1245 /************** Interrupt generation (Endpoint mode Only) API *****************/
1246 
1247 enum al_pcie_legacy_int_type{
1248 	AL_PCIE_LEGACY_INTA = 0,
1249 	AL_PCIE_LEGACY_INTB,
1250 	AL_PCIE_LEGACY_INTC,
1251 	AL_PCIE_LEGACY_INTD
1252 };
1253 
1254 
1255 /* @brief		generate FLR_PF_DONE message
1256  * @param  pcie_pf	pcie pf handle
1257  * @return		0 if no error found
1258  */
1259 int al_pcie_pf_flr_done_gen(struct al_pcie_pf *pcie_pf);
1260 
1261 /**
1262  * @brief		generate INTx Assert/DeAssert Message
1263  * @param  pcie_pf	pcie pf handle
1264  * @param  assert	when true, Assert Message is sent
1265  * @param  type		type of message (INTA, INTB, etc)
1266  * @return		0 if no error found
1267  */
1268 int al_pcie_legacy_int_gen(
1269 	struct al_pcie_pf		*pcie_pf,
1270 	al_bool				assert,
1271 	enum al_pcie_legacy_int_type	type);
1272 
1273 /**
1274  * @brief		generate MSI interrupt
1275  * @param  pcie_pf	pcie pf handle
1276  * @param  vector	the vector index to send interrupt for.
1277  * @return		0 if no error found
1278  */
1279 int al_pcie_msi_int_gen(struct al_pcie_pf *pcie_pf, uint8_t vector);
1280 
1281 /**
1282  * @brief   configure MSIX capability
1283  * @param   pcie_pf	pcie pf handle
1284  * @param   msix_params	MSIX capability configuration parameters
1285  * @return  0 if no error found
1286  */
1287 int al_pcie_msix_config(
1288 		struct al_pcie_pf		*pcie_pf,
1289 		struct al_pcie_msix_params	*msix_params);
1290 
1291 /**
1292  * @brief   check whether MSIX capability is enabled
1293  * @param   pcie_pf	pcie pf handle
1294  * @return  AL_TRUE if MSIX capability is enabled, AL_FALSE otherwise
1295  */
1296 al_bool al_pcie_msix_enabled(struct al_pcie_pf	*pcie_pf);
1297 
1298 /**
1299  * @brief   check whether MSIX capability is masked
1300  * @param   pcie_pf	pcie pf handle
1301  * @return  AL_TRUE if MSIX capability is masked, AL_FALSE otherwise
1302  */
1303 al_bool al_pcie_msix_masked(struct al_pcie_pf *pcie_pf);
1304 
1305 /******************** Advanced Error Reporting (AER) API **********************/
1306 
1307 /**
1308  * @brief   configure EP physical function AER capability
1309  * @param   pcie_pf	pcie pf handle
1310  * @param   params	AER capability configuration parameters
1311  * @return  0 if no error found
1312  */
1313 int al_pcie_aer_config(
1314 	struct al_pcie_pf		*pcie_pf,
1315 	struct al_pcie_aer_params	*params);
1316 
1317 /**
1318  * @brief   EP physical function AER uncorrectable errors get and clear
1319  * @param   pcie_pf	pcie pf handle
1320  * @return  bit mask of uncorrectable errors - see 'AL_PCIE_AER_UNCORR_*' for
1321  *          details
1322  */
1323 unsigned int al_pcie_aer_uncorr_get_and_clear(struct al_pcie_pf	*pcie_pf);
1324 
1325 /**
1326  * @brief   EP physical function AER correctable errors get and clear
1327  * @param   pcie_pf	pcie pf handle
1328  * @return  bit mask of correctable errors - see 'AL_PCIE_AER_CORR_*' for
1329  *          details
1330  */
1331 unsigned int al_pcie_aer_corr_get_and_clear(struct al_pcie_pf	*pcie_pf);
1332 
1333 /**
1334  * @brief   EP physical function AER get the header for
1335  *			the TLP corresponding to a detected error
1336  * @param   pcie_pf	pcie pf handle
1337  * @param   hdr		pointer to an array for getting the header
1338  */
1339 void al_pcie_aer_err_tlp_hdr_get(
1340 	struct al_pcie_pf	*pcie_pf,
1341 	uint32_t		hdr[AL_PCIE_AER_ERR_TLP_HDR_NUM_DWORDS]);
1342 
1343 /**
1344  * @brief   configure RC port AER capability
1345  * @param   pcie_port pcie port handle
1346  * @param   params	AER capability configuration parameters
1347  * @return  0 if no error found
1348  */
1349 int al_pcie_port_aer_config(
1350 		struct al_pcie_port		*pcie_port,
1351 		struct al_pcie_aer_params	*params);
1352 
1353 /**
1354  * @brief   RC port AER uncorrectable errors get and clear
1355  * @param   pcie_port pcie port handle
1356  * @return  bit mask of uncorrectable errors - see 'AL_PCIE_AER_UNCORR_*' for
1357  *          details
1358  */
1359 unsigned int al_pcie_port_aer_uncorr_get_and_clear(
1360 		struct al_pcie_port		*pcie_port);
1361 
1362 /**
1363  * @brief   RC port AER correctable errors get and clear
1364  * @param   pcie_port pcie port handle
1365  * @return  bit mask of correctable errors - see 'AL_PCIE_AER_CORR_*' for
1366  *          details
1367  */
1368 unsigned int al_pcie_port_aer_corr_get_and_clear(
1369 		struct al_pcie_port		*pcie_port);
1370 
1371 /**
1372  * @brief   RC port AER get the header for
1373  *			the TLP corresponding to a detected error
1374  * @param   pcie_port pcie port handle
1375  * @param   hdr		pointer to an array for getting the header
1376  */
1377 void al_pcie_port_aer_err_tlp_hdr_get(
1378 	struct al_pcie_port		*pcie_port,
1379 	uint32_t		hdr[AL_PCIE_AER_ERR_TLP_HDR_NUM_DWORDS]);
1380 
1381 /******************** Loop-Back mode (RC and Endpoint modes) ******************/
1382 
1383 /**
1384  * @brief   enter local pipe loop-back mode
1385  *  This mode will connect the pipe RX signals to TX.
1386  *  no need to start link when using this mode.
1387  *  Gen3 equalization must be disabled before enabling this mode
1388  *  The caller must make sure the port is ready to accept the TLPs it sends to
1389  *  itself. for example, BARs should be initialized before sending memory TLPs.
1390  *
1391  * @param   pcie_port pcie port handle
1392  * @return  0 if no error found
1393  */
1394 int al_pcie_local_pipe_loopback_enter(struct al_pcie_port *pcie_port);
1395 
1396 /**
1397  * @brief   exit local pipe loopback mode
1398  *
1399  * @param   pcie_port pcie port handle
1400  * @return  0 if no error found
1401  */
1402 int al_pcie_local_pipe_loopback_exit(struct al_pcie_port *pcie_port);
1403 
1404 /**
1405  * @brief   enter master remote loopback mode
1406  *  No need to configure the link partner to enter slave remote loopback mode
1407  *  as this should be done as response to special training sequence directives
1408  *  when master works in remote loopback mode.
1409  *  The caller must make sure the port is ready to accept the TLPs it sends to
1410  *  itself. for example, BARs should be initialized before sending memory TLPs.
1411  *
1412  * @param   pcie_port pcie port handle
1413  * @return  0 if no error found
1414  */
1415 int al_pcie_remote_loopback_enter(struct al_pcie_port *pcie_port);
1416 
1417 /**
1418  * @brief   exit remote loopback mode
1419  *
1420  * @param   pcie_port pcie port handle
1421  * @return  0 if no error found
1422  */
1423 int al_pcie_remote_loopback_exit(struct al_pcie_port *pcie_port);
1424 
1425 #endif
1426 /** @} end of grouppcie group */
1427