| blob | 406bc41cba604475535babaae4bbb56eb1191ee3 |
1 // SPDX-License-Identifier: GPL-2.0-only
2 /*
3 * Copyright 2016 Broadcom
4 */
6 /*
7 * Broadcom PDC Mailbox Driver
8 * The PDC provides a ring based programming interface to one or more hardware
9 * offload engines. For example, the PDC driver works with both SPU-M and SPU2
10 * cryptographic offload hardware. In some chips the PDC is referred to as MDE,
11 * and in others the FA2/FA+ hardware is used with this PDC driver.
12 *
13 * The PDC driver registers with the Linux mailbox framework as a mailbox
14 * controller, once for each PDC instance. Ring 0 for each PDC is registered as
15 * a mailbox channel. The PDC driver uses interrupts to determine when data
16 * transfers to and from an offload engine are complete. The PDC driver uses
17 * threaded IRQs so that response messages are handled outside of interrupt
18 * context.
19 *
20 * The PDC driver allows multiple messages to be pending in the descriptor
21 * rings. The tx_msg_start descriptor index indicates where the last message
22 * starts. The txin_numd value at this index indicates how many descriptor
23 * indexes make up the message. Similar state is kept on the receive side. When
24 * an rx interrupt indicates a response is ready, the PDC driver processes numd
25 * descriptors from the tx and rx ring, thus processing one response at a time.
26 */
28 #include <linux/errno.h>
29 #include <linux/module.h>
30 #include <linux/init.h>
31 #include <linux/slab.h>
32 #include <linux/debugfs.h>
33 #include <linux/interrupt.h>
34 #include <linux/wait.h>
35 #include <linux/platform_device.h>
36 #include <linux/property.h>
37 #include <linux/io.h>
38 #include <linux/of.h>
39 #include <linux/of_irq.h>
40 #include <linux/mailbox_controller.h>
41 #include <linux/mailbox/brcm-message.h>
42 #include <linux/scatterlist.h>
43 #include <linux/dma-direction.h>
44 #include <linux/dma-mapping.h>
45 #include <linux/dmapool.h>
46 #include <linux/workqueue.h>
48 #define PDC_SUCCESS 0
50 #define RING_ENTRY_SIZE sizeof(struct dma64dd)
52 /* # entries in PDC dma ring */
53 #define PDC_RING_ENTRIES 512
54 /*
55 * Minimum number of ring descriptor entries that must be free to tell mailbox
56 * framework that it can submit another request
57 */
58 #define PDC_RING_SPACE_MIN 15
60 #define PDC_RING_SIZE (PDC_RING_ENTRIES * RING_ENTRY_SIZE)
61 /* Rings are 8k aligned */
62 #define RING_ALIGN_ORDER 13
63 #define RING_ALIGN BIT(RING_ALIGN_ORDER)
65 #define RX_BUF_ALIGN_ORDER 5
66 #define RX_BUF_ALIGN BIT(RX_BUF_ALIGN_ORDER)
68 /* descriptor bumping macros */
69 #define XXD(x, max_mask) ((x) & (max_mask))
70 #define TXD(x, max_mask) XXD((x), (max_mask))
71 #define RXD(x, max_mask) XXD((x), (max_mask))
72 #define NEXTTXD(i, max_mask) TXD((i) + 1, (max_mask))
73 #define PREVTXD(i, max_mask) TXD((i) - 1, (max_mask))
74 #define NEXTRXD(i, max_mask) RXD((i) + 1, (max_mask))
75 #define PREVRXD(i, max_mask) RXD((i) - 1, (max_mask))
76 #define NTXDACTIVE(h, t, max_mask) TXD((t) - (h), (max_mask))
77 #define NRXDACTIVE(h, t, max_mask) RXD((t) - (h), (max_mask))
79 /* Length of BCM header at start of SPU msg, in bytes */
80 #define BCM_HDR_LEN 8
82 /*
83 * PDC driver reserves ringset 0 on each SPU for its own use. The driver does
84 * not currently support use of multiple ringsets on a single PDC engine.
85 */
86 #define PDC_RINGSET 0
88 /*
89 * Interrupt mask and status definitions. Enable interrupts for tx and rx on
90 * ring 0
91 */
92 #define PDC_RCVINT_0 (16 + PDC_RINGSET)
93 #define PDC_RCVINTEN_0 BIT(PDC_RCVINT_0)
94 #define PDC_INTMASK (PDC_RCVINTEN_0)
95 #define PDC_LAZY_FRAMECOUNT 1
96 #define PDC_LAZY_TIMEOUT 10000
97 #define PDC_LAZY_INT (PDC_LAZY_TIMEOUT | (PDC_LAZY_FRAMECOUNT << 24))
98 #define PDC_INTMASK_OFFSET 0x24
99 #define PDC_INTSTATUS_OFFSET 0x20
100 #define PDC_RCVLAZY0_OFFSET (0x30 + 4 * PDC_RINGSET)
101 #define FA_RCVLAZY0_OFFSET 0x100
103 /*
104 * For SPU2, configure MDE_CKSUM_CONTROL to write 17 bytes of metadata
105 * before frame
106 */
107 #define PDC_SPU2_RESP_HDR_LEN 17
108 #define PDC_CKSUM_CTRL BIT(27)
109 #define PDC_CKSUM_CTRL_OFFSET 0x400
111 #define PDC_SPUM_RESP_HDR_LEN 32
113 /*
114 * Sets the following bits for write to transmit control reg:
115 * 11 - PtyChkDisable - parity check is disabled
116 * 20:18 - BurstLen = 3 -> 2^7 = 128 byte data reads from memory
117 */
118 #define PDC_TX_CTL 0x000C0800
120 /* Bit in tx control reg to enable tx channel */
121 #define PDC_TX_ENABLE 0x1
123 /*
124 * Sets the following bits for write to receive control reg:
125 * 7:1 - RcvOffset - size in bytes of status region at start of rx frame buf
126 * 9 - SepRxHdrDescEn - place start of new frames only in descriptors
127 * that have StartOfFrame set
128 * 10 - OflowContinue - on rx FIFO overflow, clear rx fifo, discard all
129 * remaining bytes in current frame, report error
130 * in rx frame status for current frame
131 * 11 - PtyChkDisable - parity check is disabled
132 * 20:18 - BurstLen = 3 -> 2^7 = 128 byte data reads from memory
133 */
134 #define PDC_RX_CTL 0x000C0E00
136 /* Bit in rx control reg to enable rx channel */
137 #define PDC_RX_ENABLE 0x1
139 #define CRYPTO_D64_RS0_CD_MASK ((PDC_RING_ENTRIES * RING_ENTRY_SIZE) - 1)
141 /* descriptor flags */
147 #define RX_STATUS_OVERFLOW 0x00800000
148 #define RX_STATUS_LEN 0x0000FFFF
150 #define PDC_TXREGS_OFFSET 0x200
151 #define PDC_RXREGS_OFFSET 0x220
153 /* Maximum size buffer the DMA engine can handle */
154 #define PDC_DMA_BUF_MAX 16384
158 PDC_HW /* PDC/MDE hardware (i.e. Northstar 2, Pegasus) */
159 };
161 /* dma descriptor */
167 };
169 /* dma registers per channel(xmt or rcv) */
177 };
179 /* cpp contortions to concatenate w/arg prescan */
180 #ifndef PAD
181 #define _PADLINE(line) pad ## line
182 #define _XSTR(line) _PADLINE(line)
183 #define PAD _XSTR(__LINE__)
186 /* dma registers. matches hw layout. */
192 };
194 /* PDC registers */
198 u32 PAD;
205 u32 PAD;
224 u32 PAD;
242 #define PDC_NUM_DMA_RINGS 4
245 /* more registers follow, but we don't use them */
246 };
248 /* structure for allocating/freeing DMA rings */
253 };
255 /*
256 * context associated with a receive descriptor.
257 * @rxp_ctx: opaque context associated with frame that starts at each
258 * rx ring index.
259 * @dst_sg: Scatterlist used to form reply frames beginning at a given ring
260 * index. Retained in order to unmap each sg after reply is processed.
261 * @rxin_numd: Number of rx descriptors associated with the message that starts
262 * at a descriptor index. Not set for every index. For example,
263 * if descriptor index i points to a scatterlist with 4 entries,
264 * then the next three descriptor indexes don't have a value set.
265 * @resp_hdr: Virtual address of buffer used to catch DMA rx status
266 * @resp_hdr_daddr: physical address of DMA rx status buffer
267 */
271 u32 rxin_numd;
273 dma_addr_t resp_hdr_daddr;
274 };
276 /* PDC state structure */
278 /* Index of the PDC whose state is in this structure instance */
279 u8 pdc_idx;
281 /* Platform device for this PDC instance */
284 /*
285 * Each PDC instance has a mailbox controller. PDC receives request
286 * messages through mailboxes, and sends response messages through the
287 * mailbox framework.
288 */
293 /* work for deferred processing after DMA rx interrupt */
296 /* Number of bytes of receive status prior to each rx frame */
297 u32 rx_status_len;
298 /* Whether a BCM header is prepended to each frame */
300 /* Sum of length of BCM header and rx status header */
301 u32 pdc_resp_hdr_len;
303 /* The base virtual address of DMA hw registers */
306 /* Pool for allocation of DMA rings */
309 /* Pool for allocation of metadata buffers for response messages */
312 /*
313 * The base virtual address of DMA tx/rx descriptor rings. Corresponding
314 * DMA address and size of ring allocation.
315 */
324 /*
325 * Arrays of PDC_RING_ENTRIES descriptors
326 * To use multiple ringsets, this needs to be extended
327 */
331 /* descriptor ring sizes */
337 /*
338 * Index of next tx descriptor to reclaim. That is, the descriptor
339 * index of the oldest tx buffer for which the host has yet to process
340 * the corresponding response.
341 */
342 u32 txin;
344 /*
345 * Index of the first receive descriptor for the sequence of
346 * message fragments currently under construction. Used to build up
347 * the rxin_numd count for a message. Updated to rxout when the host
348 * starts a new sequence of rx buffers for a new message.
349 */
350 u32 tx_msg_start;
352 /* Index of next tx descriptor to post. */
353 u32 txout;
355 /*
356 * Number of tx descriptors associated with the message that starts
357 * at this tx descriptor index.
358 */
361 /*
362 * Index of next rx descriptor to reclaim. This is the index of
363 * the next descriptor whose data has yet to be processed by the host.
364 */
365 u32 rxin;
367 /*
368 * Index of the first receive descriptor for the sequence of
369 * message fragments currently under construction. Used to build up
370 * the rxin_numd count for a message. Updated to rxout when the host
371 * starts a new sequence of rx buffers for a new message.
372 */
373 u32 rx_msg_start;
375 /*
376 * Saved value of current hardware rx descriptor index.
377 * The last rx buffer written by the hw is the index previous to
378 * this one.
379 */
380 u32 last_rx_curr;
382 /* Index of next rx descriptor to post. */
383 u32 rxout;
387 /*
388 * Scatterlists used to form request and reply frames beginning at a
389 * given ring index. Retained in order to unmap each sg after reply
390 * is processed
391 */
394 /* counters */
404 /* hardware type - FA2 or PDC/MDE */
406 };
408 /* Global variables */
411 /* Actual number of SPUs in hardware, as reported by device tree */
412 u32 num_spu;
413 };
417 /* top level debug FS directory for PDC driver */
422 {
472 }
478 };
480 /**
481 * pdc_setup_debugfs() - Create the debug FS directories. If the top-level
482 * directory has not yet been created, create it now. Create a stats file in
483 * this directory for a SPU.
484 * @pdcs: PDC state structure
485 */
487 {
497 /* S_IRUSR == 0400 */
500 }
503 {
506 }
508 /**
509 * pdc_build_rxd() - Build DMA descriptor to receive SPU result.
510 * @pdcs: PDC state for SPU that will generate result
511 * @dma_addr: DMA address of buffer that descriptor is being built for
512 * @buf_len: Length of the receive buffer, in bytes
513 * @flags: Flags to be stored in descriptor
514 */
518 {
531 /* bump ring index and return */
533 }
535 /**
536 * pdc_build_txd() - Build a DMA descriptor to transmit a SPU request to
537 * hardware.
538 * @pdcs: PDC state for the SPU that will process this request
539 * @dma_addr: DMA address of packet to be transmitted
540 * @buf_len: Length of tx buffer, in bytes
541 * @flags: Flags to be stored in descriptor
542 */
545 u32 flags)
546 {
559 /* bump ring index and return */
561 }
563 /**
564 * pdc_receive_one() - Receive a response message from a given SPU.
565 * @pdcs: PDC state for the SPU to receive from
566 *
567 * When the return code indicates success, the response message is available in
568 * the receive buffers provided prior to submission of the request.
569 *
570 * Return: PDC_SUCCESS if one or more receive descriptors was processed
571 * -EAGAIN indicates that no response message is available
572 * -EIO an error occurred
573 */
574 static int
576 {
582 u32 num_frags;
586 dma_addr_t resp_hdr_daddr;
593 /*
594 * return if a complete response message is not yet ready.
595 * rxin_numd[rxin] is the number of fragments in the next msg
596 * to read.
597 */
601 /* No response ready */
618 /* Return opaque context with result */
624 DMA_FROM_DEVICE);
637 /*
638 * For SPU-M, get length of response msg and rx overflow status.
639 */
651 }
653 }
654 }
662 }
664 /**
665 * pdc_receive() - Process as many responses as are available in the rx ring.
666 * @pdcs: PDC state
667 *
668 * Called within the hard IRQ.
669 * Return:
670 */
671 static int
673 {
676 /* read last_rx_curr from register once */
682 /* Could be many frames ready */
687 }
689 /**
690 * pdc_tx_list_sg_add() - Add the buffers in a scatterlist to the transmit
691 * descriptors for a given SPU. The scatterlist buffers contain the data for a
692 * SPU request message.
693 * @pdcs: PDC state for the SPU that will process this request
694 * @sg: Scatterlist whose buffers contain part of the SPU request
695 *
696 * If a scatterlist buffer is larger than PDC_DMA_BUF_MAX, multiple descriptors
697 * are written for that buffer, each <= PDC_DMA_BUF_MAX byte in length.
698 *
699 * Return: PDC_SUCCESS if successful
700 * < 0 otherwise
701 */
703 {
705 u32 eot;
706 u32 tx_avail;
708 /*
709 * Num descriptors needed. Conservatively assume we need a descriptor
710 * for every entry in sg.
711 */
712 u32 num_desc;
719 /* check whether enough tx descriptors are available */
725 }
727 /* build tx descriptors */
729 /* Start of frame */
733 }
738 else
741 /*
742 * If sg buffer larger than PDC limit, split across
743 * multiple descriptors
744 */
750 desc_w++;
755 else
757 }
760 /* Writing last descriptor for frame */
763 desc_w++;
764 /* Clear start of frame after first descriptor */
766 }
770 }
772 /**
773 * pdc_tx_list_final() - Initiate DMA transfer of last frame written to tx
774 * ring.
775 * @pdcs: PDC state for SPU to process the request
776 *
777 * Sets the index of the last descriptor written in both the rx and tx ring.
778 *
779 * Return: PDC_SUCCESS
780 */
782 {
783 /*
784 * write barrier to ensure all register writes are complete
785 * before chip starts to process new request
786 */
793 }
795 /**
796 * pdc_rx_list_init() - Start a new receive descriptor list for a given PDC.
797 * @pdcs: PDC state for SPU handling request
798 * @dst_sg: scatterlist providing rx buffers for response to be returned to
799 * mailbox client
800 * @ctx: Opaque context for this request
801 *
802 * Posts a single receive descriptor to hold the metadata that precedes a
803 * response. For example, with SPU-M, the metadata is a 32-byte DMA header and
804 * an 8-byte BCM header. Moves the msg_start descriptor indexes for both tx and
805 * rx to indicate the start of a new message.
806 *
807 * Return: PDC_SUCCESS if successful
808 * < 0 if an error (e.g., rx ring is full)
809 */
812 {
814 u32 rx_avail;
816 dma_addr_t daddr;
825 }
827 /* allocate a buffer for the dma rx status */
832 /*
833 * Update msg_start indexes for both tx and rx to indicate the start
834 * of a new sequence of descriptor indexes that contain the fragments
835 * of the same message.
836 */
840 /* This is always the first descriptor in the receive sequence */
854 }
856 /**
857 * pdc_rx_list_sg_add() - Add the buffers in a scatterlist to the receive
858 * descriptors for a given SPU. The caller must have already DMA mapped the
859 * scatterlist.
860 * @pdcs: PDC state for the SPU that will process this request
861 * @sg: Scatterlist whose buffers are added to the receive ring
862 *
863 * If a receive buffer in the scatterlist is larger than PDC_DMA_BUF_MAX,
864 * multiple receive descriptors are written, each with a buffer <=
865 * PDC_DMA_BUF_MAX.
866 *
867 * Return: PDC_SUCCESS if successful
868 * < 0 otherwise (e.g., receive ring is full)
869 */
871 {
873 u32 rx_avail;
875 /*
876 * Num descriptors needed. Conservatively assume we need a descriptor
877 * for every entry from our starting point in the scatterlist.
878 */
879 u32 num_desc;
891 }
896 else
899 /*
900 * If sg buffer larger than PDC limit, split across
901 * multiple descriptors
902 */
907 desc_w++;
912 else
914 }
916 desc_w++;
918 }
922 }
924 /**
925 * pdc_irq_handler() - Interrupt handler called in interrupt context.
926 * @irq: Interrupt number that has fired
927 * @data: device struct for DMA engine that generated the interrupt
928 *
929 * We have to clear the device interrupt status flags here. So cache the
930 * status for later use in the thread function. Other than that, just return
931 * WAKE_THREAD to invoke the thread function.
932 *
933 * Return: IRQ_WAKE_THREAD if interrupt is ours
934 * IRQ_NONE otherwise
935 */
937 {
945 /* Disable interrupts until soft handler runs */
948 /* Clear interrupt flags in device */
951 /* Wakeup IRQ thread */
954 }
956 /**
957 * pdc_work_cb() - Work callback that runs the deferred processing after
958 * a DMA receive interrupt. Reenables the receive interrupt.
959 * @t: Pointer to the Altera sSGDMA channel structure
960 */
962 {
967 /* reenable interrupts */
969 }
971 /**
972 * pdc_ring_init() - Allocate DMA rings and initialize constant fields of
973 * descriptors in one ringset.
974 * @pdcs: PDC instance state
975 * @ringset: index of ringset being used
976 *
977 * Return: PDC_SUCCESS if ring initialized
978 * < 0 otherwise
979 */
981 {
989 /* Allocate tx ring */
994 }
996 /* Allocate rx ring */
1001 }
1019 /* Set descriptor array base addresses */
1023 /* Tell device the base DMA address of each ring */
1026 /* But first disable DMA and set curptr to 0 for both TX & RX */
1033 /* Set base DMA addresses */
1044 /* Re-enable DMA */
1049 /* Initialize descriptors */
1051 /* Every tx descriptor can be used for start of frame. */
1056 /* Last descriptor in ringset. Set End of Table. */
1059 }
1061 /* Every rx descriptor can be used for start of frame */
1066 /* Last descriptor in ringset. Set End of Table. */
1069 }
1070 }
1073 fail_dealloc:
1075 done:
1077 }
1080 {
1085 }
1091 }
1092 }
1094 /**
1095 * pdc_desc_count() - Count the number of DMA descriptors that will be required
1096 * for a given scatterlist. Account for the max length of a DMA buffer.
1097 * @sg: Scatterlist to be DMA'd
1098 * Return: Number of descriptors required
1099 */
1101 {
1107 }
1109 }
1111 /**
1112 * pdc_rings_full() - Check whether the tx ring has room for tx_cnt descriptors
1113 * and the rx ring has room for rx_cnt descriptors.
1114 * @pdcs: PDC state
1115 * @tx_cnt: The number of descriptors required in the tx ring
1116 * @rx_cnt: The number of descriptors required i the rx ring
1117 *
1118 * Return: true if one of the rings does not have enough space
1119 * false if sufficient space is available in both rings
1120 */
1122 {
1123 u32 rx_avail;
1124 u32 tx_avail;
1127 /* Check if the tx and rx rings are likely to have enough space */
1133 }
1141 }
1142 }
1144 }
1146 /**
1147 * pdc_last_tx_done() - If both the tx and rx rings have at least
1148 * PDC_RING_SPACE_MIN descriptors available, then indicate that the mailbox
1149 * framework can submit another message.
1150 * @chan: mailbox channel to check
1151 * Return: true if PDC can accept another message on this channel
1152 */
1154 {
1159 PDC_RING_SPACE_MIN))) {
1164 }
1166 }
1168 /**
1169 * pdc_send_data() - mailbox send_data function
1170 * @chan: The mailbox channel on which the data is sent. The channel
1171 * corresponds to a DMA ringset.
1172 * @data: The mailbox message to be sent. The message must be a
1173 * brcm_message structure.
1174 *
1175 * This function is registered as the send_data function for the mailbox
1176 * controller. From the destination scatterlist in the mailbox message, it
1177 * creates a sequence of receive descriptors in the rx ring. From the source
1178 * scatterlist, it creates a sequence of transmit descriptors in the tx ring.
1179 * After creating the descriptors, it writes the rx ptr and tx ptr registers to
1180 * initiate the DMA transfer.
1181 *
1182 * This function does the DMA map and unmap of the src and dst scatterlists in
1183 * the mailbox message.
1184 *
1185 * Return: 0 if successful
1186 * -ENOTSUPP if the mailbox message is a type this driver does not
1187 * support
1188 * < 0 if an error
1189 */
1191 {
1199 u32 tx_desc_req;
1200 u32 rx_desc_req;
1210 }
1215 DMA_FROM_DEVICE);
1218 DMA_TO_DEVICE);
1220 }
1221 }
1223 /*
1224 * Check if the tx and rx rings have enough space. Do this prior to
1225 * writing any tx or rx descriptors. Need to ensure that we do not write
1226 * a partial set of descriptors, or write just rx descriptors but
1227 * corresponding tx descriptors don't fit. Note that we want this check
1228 * and the entire sequence of descriptor to happen without another
1229 * thread getting in. The channel spin lock in the mailbox framework
1230 * ensures this.
1231 */
1237 /* Create rx descriptors to SPU catch response */
1241 /* Create tx descriptors to submit SPU request */
1250 }
1253 {
1255 }
1258 {
1267 }
1269 /**
1270 * pdc_hw_init() - Use the given initialization parameters to initialize the
1271 * state for one of the PDCs.
1272 * @pdcs: state of the PDC
1273 */
1274 static
1276 {
1287 pdcs);
1291 /* initialize data structures */
1308 /* Configure DMA but will enable later in pdc_ring_init() */
1314 /* Reset current index pointers after making sure DMA is disabled */
1321 }
1323 /**
1324 * pdc_hw_disable() - Disable the tx and rx control in the hw.
1325 * @pdcs: PDC state structure
1326 *
1327 */
1329 {
1336 }
1338 /**
1339 * pdc_rx_buf_pool_create() - Pool of receive buffers used to catch the metadata
1340 * header returned with each response message.
1341 * @pdcs: PDC state structure
1342 *
1343 * The metadata is not returned to the mailbox client. So the PDC driver
1344 * manages these buffers.
1345 *
1346 * Return: PDC_SUCCESS
1347 * -ENOMEM if pool creation fails
1348 */
1350 {
1368 }
1370 /**
1371 * pdc_interrupts_init() - Initialize the interrupt configuration for a PDC and
1372 * specify a threaded IRQ handler for deferred handling of interrupts outside of
1373 * interrupt context.
1374 * @pdcs: PDC state
1375 *
1376 * Set the interrupt mask for transmit and receive done.
1377 * Set the lazy interrupt frame count to generate an interrupt for just one pkt.
1378 *
1379 * Return: PDC_SUCCESS
1380 * <0 if threaded irq request fails
1381 */
1383 {
1389 /* interrupt configuration */
1394 FA_RCVLAZY0_OFFSET);
1395 else
1397 PDC_RCVLAZY0_OFFSET);
1399 /* read irq from device tree */
1410 }
1412 }
1419 };
1421 /**
1422 * pdc_mb_init() - Initialize the mailbox controller.
1423 * @pdcs: PDC state
1424 *
1425 * Each PDC is a mailbox controller. Each ringset is a mailbox channel. Kernel
1426 * driver only uses one ringset and thus one mb channel. PDC uses the transmit
1427 * complete interrupt to determine when a mailbox message has successfully been
1428 * transmitted.
1429 *
1430 * Return: 0 on success
1431 * < 0 if there is an allocation or registration failure
1432 */
1434 {
1445 GFP_KERNEL);
1455 /* Register mailbox controller */
1460 err);
1462 }
1464 }
1466 /* Device tree API */
1474 };
1477 /**
1478 * pdc_dt_read() - Read application-specific data from device tree.
1479 * @pdev: Platform device
1480 * @pdcs: PDC state
1481 *
1482 * Reads the number of bytes of receive status that precede each received frame.
1483 * Reads whether transmit and received frames should be preceded by an 8-byte
1484 * BCM header.
1485 *
1486 * Return: 0 if successful
1487 * -ENODEV if device not available
1488 */
1490 {
1501 __func__);
1512 }
1514 /**
1515 * pdc_probe() - Probe function for PDC driver.
1516 * @pdev: PDC platform device
1517 *
1518 * Reserve and map register regions defined in device tree.
1519 * Allocate and initialize tx and rx DMA rings.
1520 * Initialize a mailbox controller for each PDC.
1521 *
1522 * Return: 0 if successful
1523 * < 0 if an error
1524 */
1526 {
1532 /* PDC state for one SPU */
1537 }
1548 }
1550 /* Create DMA pool for tx ring */
1556 }
1566 }
1570 /* create rx buffer pool after dt read to know how big buffers are */
1577 /* Init work for deferred DMA rx processing */
1584 /* Initialize mailbox controller */
1594 cleanup_buf_pool:
1598 cleanup_ring_pool:
1601 cleanup:
1603 }
1606 {
1617 }
1625 },
1626 };