13c8c20dbSEdwin Peer /* Broadcom NetXtreme-C/E network driver.
23c8c20dbSEdwin Peer *
33c8c20dbSEdwin Peer * Copyright (c) 2020 Broadcom Limited
43c8c20dbSEdwin Peer *
53c8c20dbSEdwin Peer * This program is free software; you can redistribute it and/or modify
63c8c20dbSEdwin Peer * it under the terms of the GNU General Public License as published by
73c8c20dbSEdwin Peer * the Free Software Foundation.
83c8c20dbSEdwin Peer */
93c8c20dbSEdwin Peer
103c8c20dbSEdwin Peer #include <asm/byteorder.h>
113c8c20dbSEdwin Peer #include <linux/dma-mapping.h>
123c8c20dbSEdwin Peer #include <linux/dmapool.h>
133c8c20dbSEdwin Peer #include <linux/errno.h>
143c8c20dbSEdwin Peer #include <linux/ethtool.h>
153c8c20dbSEdwin Peer #include <linux/if_ether.h>
163c8c20dbSEdwin Peer #include <linux/io.h>
173c8c20dbSEdwin Peer #include <linux/irq.h>
183c8c20dbSEdwin Peer #include <linux/kernel.h>
1968f684e2SEdwin Peer #include <linux/list.h>
203c8c20dbSEdwin Peer #include <linux/netdevice.h>
213c8c20dbSEdwin Peer #include <linux/pci.h>
223c8c20dbSEdwin Peer #include <linux/skbuff.h>
233c8c20dbSEdwin Peer
243c8c20dbSEdwin Peer #include "bnxt_hsi.h"
253c8c20dbSEdwin Peer #include "bnxt.h"
263c8c20dbSEdwin Peer #include "bnxt_hwrm.h"
273c8c20dbSEdwin Peer
hwrm_calc_sentinel(struct bnxt_hwrm_ctx * ctx,u16 req_type)28f9ff5782SEdwin Peer static u64 hwrm_calc_sentinel(struct bnxt_hwrm_ctx *ctx, u16 req_type)
29f9ff5782SEdwin Peer {
30f9ff5782SEdwin Peer return (((uintptr_t)ctx) + req_type) ^ BNXT_HWRM_SENTINEL;
31f9ff5782SEdwin Peer }
32f9ff5782SEdwin Peer
33f9ff5782SEdwin Peer /**
34f9ff5782SEdwin Peer * __hwrm_req_init() - Initialize an HWRM request.
35f9ff5782SEdwin Peer * @bp: The driver context.
36f9ff5782SEdwin Peer * @req: A pointer to the request pointer to initialize.
37f9ff5782SEdwin Peer * @req_type: The request type. This will be converted to the little endian
38f9ff5782SEdwin Peer * before being written to the req_type field of the returned request.
39f9ff5782SEdwin Peer * @req_len: The length of the request to be allocated.
40f9ff5782SEdwin Peer *
41f9ff5782SEdwin Peer * Allocate DMA resources and initialize a new HWRM request object of the
42f9ff5782SEdwin Peer * given type. The response address field in the request is configured with
43f9ff5782SEdwin Peer * the DMA bus address that has been mapped for the response and the passed
44f9ff5782SEdwin Peer * request is pointed to kernel virtual memory mapped for the request (such
45f9ff5782SEdwin Peer * that short_input indirection can be accomplished without copying). The
46f9ff5782SEdwin Peer * request’s target and completion ring are initialized to default values and
47f9ff5782SEdwin Peer * can be overridden by writing to the returned request object directly.
48f9ff5782SEdwin Peer *
49f9ff5782SEdwin Peer * The initialized request can be further customized by writing to its fields
50f9ff5782SEdwin Peer * directly, taking care to covert such fields to little endian. The request
51f9ff5782SEdwin Peer * object will be consumed (and all its associated resources release) upon
52f9ff5782SEdwin Peer * passing it to hwrm_req_send() unless ownership of the request has been
53f9ff5782SEdwin Peer * claimed by the caller via a call to hwrm_req_hold(). If the request is not
54f9ff5782SEdwin Peer * consumed, either because it is never sent or because ownership has been
55f9ff5782SEdwin Peer * claimed, then it must be released by a call to hwrm_req_drop().
56f9ff5782SEdwin Peer *
57f9ff5782SEdwin Peer * Return: zero on success, negative error code otherwise:
58f9ff5782SEdwin Peer * E2BIG: the type of request pointer is too large to fit.
59f9ff5782SEdwin Peer * ENOMEM: an allocation failure occurred.
60f9ff5782SEdwin Peer */
__hwrm_req_init(struct bnxt * bp,void ** req,u16 req_type,u32 req_len)61f9ff5782SEdwin Peer int __hwrm_req_init(struct bnxt *bp, void **req, u16 req_type, u32 req_len)
62f9ff5782SEdwin Peer {
63f9ff5782SEdwin Peer struct bnxt_hwrm_ctx *ctx;
64f9ff5782SEdwin Peer dma_addr_t dma_handle;
65f9ff5782SEdwin Peer u8 *req_addr;
66f9ff5782SEdwin Peer
67f9ff5782SEdwin Peer if (req_len > BNXT_HWRM_CTX_OFFSET)
68f9ff5782SEdwin Peer return -E2BIG;
69f9ff5782SEdwin Peer
70f9ff5782SEdwin Peer req_addr = dma_pool_alloc(bp->hwrm_dma_pool, GFP_KERNEL | __GFP_ZERO,
71f9ff5782SEdwin Peer &dma_handle);
72f9ff5782SEdwin Peer if (!req_addr)
73f9ff5782SEdwin Peer return -ENOMEM;
74f9ff5782SEdwin Peer
75f9ff5782SEdwin Peer ctx = (struct bnxt_hwrm_ctx *)(req_addr + BNXT_HWRM_CTX_OFFSET);
76f9ff5782SEdwin Peer /* safety first, sentinel used to check for invalid requests */
77f9ff5782SEdwin Peer ctx->sentinel = hwrm_calc_sentinel(ctx, req_type);
78f9ff5782SEdwin Peer ctx->req_len = req_len;
79f9ff5782SEdwin Peer ctx->req = (struct input *)req_addr;
80f9ff5782SEdwin Peer ctx->resp = (struct output *)(req_addr + BNXT_HWRM_RESP_OFFSET);
81f9ff5782SEdwin Peer ctx->dma_handle = dma_handle;
82f9ff5782SEdwin Peer ctx->flags = 0; /* __GFP_ZERO, but be explicit regarding ownership */
83f9ff5782SEdwin Peer ctx->timeout = bp->hwrm_cmd_timeout ?: DFLT_HWRM_CMD_TIMEOUT;
8421380817SEdwin Peer ctx->allocated = BNXT_HWRM_DMA_SIZE - BNXT_HWRM_CTX_OFFSET;
8521380817SEdwin Peer ctx->gfp = GFP_KERNEL;
8621380817SEdwin Peer ctx->slice_addr = NULL;
87f9ff5782SEdwin Peer
88f9ff5782SEdwin Peer /* initialize common request fields */
89f9ff5782SEdwin Peer ctx->req->req_type = cpu_to_le16(req_type);
90f9ff5782SEdwin Peer ctx->req->resp_addr = cpu_to_le64(dma_handle + BNXT_HWRM_RESP_OFFSET);
91f9ff5782SEdwin Peer ctx->req->cmpl_ring = cpu_to_le16(BNXT_HWRM_NO_CMPL_RING);
92f9ff5782SEdwin Peer ctx->req->target_id = cpu_to_le16(BNXT_HWRM_TARGET);
93f9ff5782SEdwin Peer *req = ctx->req;
94f9ff5782SEdwin Peer
95f9ff5782SEdwin Peer return 0;
96f9ff5782SEdwin Peer }
97f9ff5782SEdwin Peer
__hwrm_ctx(struct bnxt * bp,u8 * req_addr)98f9ff5782SEdwin Peer static struct bnxt_hwrm_ctx *__hwrm_ctx(struct bnxt *bp, u8 *req_addr)
99f9ff5782SEdwin Peer {
100f9ff5782SEdwin Peer void *ctx_addr = req_addr + BNXT_HWRM_CTX_OFFSET;
101f9ff5782SEdwin Peer struct input *req = (struct input *)req_addr;
102f9ff5782SEdwin Peer struct bnxt_hwrm_ctx *ctx = ctx_addr;
103f9ff5782SEdwin Peer u64 sentinel;
104f9ff5782SEdwin Peer
105f9ff5782SEdwin Peer if (!req) {
106f9ff5782SEdwin Peer /* can only be due to software bug, be loud */
107f9ff5782SEdwin Peer netdev_err(bp->dev, "null HWRM request");
108f9ff5782SEdwin Peer dump_stack();
109f9ff5782SEdwin Peer return NULL;
110f9ff5782SEdwin Peer }
111f9ff5782SEdwin Peer
112f9ff5782SEdwin Peer /* HWRM API has no type safety, verify sentinel to validate address */
113f9ff5782SEdwin Peer sentinel = hwrm_calc_sentinel(ctx, le16_to_cpu(req->req_type));
114f9ff5782SEdwin Peer if (ctx->sentinel != sentinel) {
115f9ff5782SEdwin Peer /* can only be due to software bug, be loud */
116f9ff5782SEdwin Peer netdev_err(bp->dev, "HWRM sentinel mismatch, req_type = %u\n",
117f9ff5782SEdwin Peer (u32)le16_to_cpu(req->req_type));
118f9ff5782SEdwin Peer dump_stack();
119f9ff5782SEdwin Peer return NULL;
120f9ff5782SEdwin Peer }
121f9ff5782SEdwin Peer
122f9ff5782SEdwin Peer return ctx;
123f9ff5782SEdwin Peer }
124f9ff5782SEdwin Peer
125f9ff5782SEdwin Peer /**
126f9ff5782SEdwin Peer * hwrm_req_timeout() - Set the completion timeout for the request.
127f9ff5782SEdwin Peer * @bp: The driver context.
128f9ff5782SEdwin Peer * @req: The request to set the timeout.
129f9ff5782SEdwin Peer * @timeout: The timeout in milliseconds.
130f9ff5782SEdwin Peer *
131f9ff5782SEdwin Peer * Set the timeout associated with the request for subsequent calls to
132f9ff5782SEdwin Peer * hwrm_req_send(). Some requests are long running and require a different
133f9ff5782SEdwin Peer * timeout than the default.
134f9ff5782SEdwin Peer */
hwrm_req_timeout(struct bnxt * bp,void * req,unsigned int timeout)135f9ff5782SEdwin Peer void hwrm_req_timeout(struct bnxt *bp, void *req, unsigned int timeout)
136f9ff5782SEdwin Peer {
137f9ff5782SEdwin Peer struct bnxt_hwrm_ctx *ctx = __hwrm_ctx(bp, req);
138f9ff5782SEdwin Peer
139f9ff5782SEdwin Peer if (ctx)
140f9ff5782SEdwin Peer ctx->timeout = timeout;
141f9ff5782SEdwin Peer }
142f9ff5782SEdwin Peer
143f9ff5782SEdwin Peer /**
14421380817SEdwin Peer * hwrm_req_alloc_flags() - Sets GFP allocation flags for slices.
14521380817SEdwin Peer * @bp: The driver context.
14621380817SEdwin Peer * @req: The request for which calls to hwrm_req_dma_slice() will have altered
14721380817SEdwin Peer * allocation flags.
1485240118fSEdwin Peer * @gfp: A bitmask of GFP flags. These flags are passed to dma_alloc_coherent()
1495240118fSEdwin Peer * whenever it is used to allocate backing memory for slices. Note that
1505240118fSEdwin Peer * calls to hwrm_req_dma_slice() will not always result in new allocations,
1515240118fSEdwin Peer * however, memory suballocated from the request buffer is already
1525240118fSEdwin Peer * __GFP_ZERO.
15321380817SEdwin Peer *
15421380817SEdwin Peer * Sets the GFP allocation flags associated with the request for subsequent
15521380817SEdwin Peer * calls to hwrm_req_dma_slice(). This can be useful for specifying __GFP_ZERO
15621380817SEdwin Peer * for slice allocations.
15721380817SEdwin Peer */
hwrm_req_alloc_flags(struct bnxt * bp,void * req,gfp_t gfp)15821380817SEdwin Peer void hwrm_req_alloc_flags(struct bnxt *bp, void *req, gfp_t gfp)
15921380817SEdwin Peer {
16021380817SEdwin Peer struct bnxt_hwrm_ctx *ctx = __hwrm_ctx(bp, req);
16121380817SEdwin Peer
16221380817SEdwin Peer if (ctx)
16321380817SEdwin Peer ctx->gfp = gfp;
16421380817SEdwin Peer }
16521380817SEdwin Peer
16621380817SEdwin Peer /**
167ecddc29dSEdwin Peer * hwrm_req_replace() - Replace request data.
168ecddc29dSEdwin Peer * @bp: The driver context.
169ecddc29dSEdwin Peer * @req: The request to modify. A call to hwrm_req_replace() is conceptually
170ecddc29dSEdwin Peer * an assignment of new_req to req. Subsequent calls to HWRM API functions,
171ecddc29dSEdwin Peer * such as hwrm_req_send(), should thus use req and not new_req (in fact,
172ecddc29dSEdwin Peer * calls to HWRM API functions will fail if non-managed request objects
173ecddc29dSEdwin Peer * are passed).
174ecddc29dSEdwin Peer * @len: The length of new_req.
175ecddc29dSEdwin Peer * @new_req: The pre-built request to copy or reference.
176ecddc29dSEdwin Peer *
177ecddc29dSEdwin Peer * Replaces the request data in req with that of new_req. This is useful in
178ecddc29dSEdwin Peer * scenarios where a request object has already been constructed by a third
179ecddc29dSEdwin Peer * party prior to creating a resource managed request using hwrm_req_init().
180ecddc29dSEdwin Peer * Depending on the length, hwrm_req_replace() will either copy the new
181ecddc29dSEdwin Peer * request data into the DMA memory allocated for req, or it will simply
182ecddc29dSEdwin Peer * reference the new request and use it in lieu of req during subsequent
183ecddc29dSEdwin Peer * calls to hwrm_req_send(). The resource management is associated with
184ecddc29dSEdwin Peer * req and is independent of and does not apply to new_req. The caller must
18521380817SEdwin Peer * ensure that the lifetime of new_req is least as long as req. Any slices
18621380817SEdwin Peer * that may have been associated with the original request are released.
187ecddc29dSEdwin Peer *
188ecddc29dSEdwin Peer * Return: zero on success, negative error code otherwise:
189ecddc29dSEdwin Peer * E2BIG: Request is too large.
190ecddc29dSEdwin Peer * EINVAL: Invalid request to modify.
191ecddc29dSEdwin Peer */
hwrm_req_replace(struct bnxt * bp,void * req,void * new_req,u32 len)192ecddc29dSEdwin Peer int hwrm_req_replace(struct bnxt *bp, void *req, void *new_req, u32 len)
193ecddc29dSEdwin Peer {
194ecddc29dSEdwin Peer struct bnxt_hwrm_ctx *ctx = __hwrm_ctx(bp, req);
195ecddc29dSEdwin Peer struct input *internal_req = req;
196ecddc29dSEdwin Peer u16 req_type;
197ecddc29dSEdwin Peer
198ecddc29dSEdwin Peer if (!ctx)
199ecddc29dSEdwin Peer return -EINVAL;
200ecddc29dSEdwin Peer
201ecddc29dSEdwin Peer if (len > BNXT_HWRM_CTX_OFFSET)
202ecddc29dSEdwin Peer return -E2BIG;
203ecddc29dSEdwin Peer
20421380817SEdwin Peer /* free any existing slices */
20521380817SEdwin Peer ctx->allocated = BNXT_HWRM_DMA_SIZE - BNXT_HWRM_CTX_OFFSET;
20621380817SEdwin Peer if (ctx->slice_addr) {
20721380817SEdwin Peer dma_free_coherent(&bp->pdev->dev, ctx->slice_size,
20821380817SEdwin Peer ctx->slice_addr, ctx->slice_handle);
20921380817SEdwin Peer ctx->slice_addr = NULL;
21021380817SEdwin Peer }
21121380817SEdwin Peer ctx->gfp = GFP_KERNEL;
21221380817SEdwin Peer
213ecddc29dSEdwin Peer if ((bp->fw_cap & BNXT_FW_CAP_SHORT_CMD) || len > BNXT_HWRM_MAX_REQ_LEN) {
214ecddc29dSEdwin Peer memcpy(internal_req, new_req, len);
215ecddc29dSEdwin Peer } else {
216ecddc29dSEdwin Peer internal_req->req_type = ((struct input *)new_req)->req_type;
217ecddc29dSEdwin Peer ctx->req = new_req;
218ecddc29dSEdwin Peer }
219ecddc29dSEdwin Peer
220ecddc29dSEdwin Peer ctx->req_len = len;
221ecddc29dSEdwin Peer ctx->req->resp_addr = cpu_to_le64(ctx->dma_handle +
222ecddc29dSEdwin Peer BNXT_HWRM_RESP_OFFSET);
223ecddc29dSEdwin Peer
224ecddc29dSEdwin Peer /* update sentinel for potentially new request type */
225ecddc29dSEdwin Peer req_type = le16_to_cpu(internal_req->req_type);
226ecddc29dSEdwin Peer ctx->sentinel = hwrm_calc_sentinel(ctx, req_type);
227ecddc29dSEdwin Peer
228ecddc29dSEdwin Peer return 0;
229ecddc29dSEdwin Peer }
230ecddc29dSEdwin Peer
231ecddc29dSEdwin Peer /**
232f9ff5782SEdwin Peer * hwrm_req_flags() - Set non internal flags of the ctx
233f9ff5782SEdwin Peer * @bp: The driver context.
234f9ff5782SEdwin Peer * @req: The request containing the HWRM command
235f9ff5782SEdwin Peer * @flags: ctx flags that don't have BNXT_HWRM_INTERNAL_FLAG set
236f9ff5782SEdwin Peer *
237f9ff5782SEdwin Peer * ctx flags can be used by the callers to instruct how the subsequent
238f9ff5782SEdwin Peer * hwrm_req_send() should behave. Example: callers can use hwrm_req_flags
239f9ff5782SEdwin Peer * with BNXT_HWRM_CTX_SILENT to omit kernel prints of errors of hwrm_req_send()
240f9ff5782SEdwin Peer * or with BNXT_HWRM_FULL_WAIT enforce hwrm_req_send() to wait for full timeout
241f9ff5782SEdwin Peer * even if FW is not responding.
242f9ff5782SEdwin Peer * This generic function can be used to set any flag that is not an internal flag
243f9ff5782SEdwin Peer * of the HWRM module.
244f9ff5782SEdwin Peer */
hwrm_req_flags(struct bnxt * bp,void * req,enum bnxt_hwrm_ctx_flags flags)245f9ff5782SEdwin Peer void hwrm_req_flags(struct bnxt *bp, void *req, enum bnxt_hwrm_ctx_flags flags)
246f9ff5782SEdwin Peer {
247f9ff5782SEdwin Peer struct bnxt_hwrm_ctx *ctx = __hwrm_ctx(bp, req);
248f9ff5782SEdwin Peer
249f9ff5782SEdwin Peer if (ctx)
250f9ff5782SEdwin Peer ctx->flags |= (flags & HWRM_API_FLAGS);
251f9ff5782SEdwin Peer }
252f9ff5782SEdwin Peer
253f9ff5782SEdwin Peer /**
254f9ff5782SEdwin Peer * hwrm_req_hold() - Claim ownership of the request's resources.
255f9ff5782SEdwin Peer * @bp: The driver context.
256f9ff5782SEdwin Peer * @req: A pointer to the request to own. The request will no longer be
257f9ff5782SEdwin Peer * consumed by calls to hwrm_req_send().
258f9ff5782SEdwin Peer *
259f9ff5782SEdwin Peer * Take ownership of the request. Ownership places responsibility on the
260f9ff5782SEdwin Peer * caller to free the resources associated with the request via a call to
261f9ff5782SEdwin Peer * hwrm_req_drop(). The caller taking ownership implies that a subsequent
262f9ff5782SEdwin Peer * call to hwrm_req_send() will not consume the request (ie. sending will
263f9ff5782SEdwin Peer * not free the associated resources if the request is owned by the caller).
264f9ff5782SEdwin Peer * Taking ownership returns a reference to the response. Retaining and
265f9ff5782SEdwin Peer * accessing the response data is the most common reason to take ownership
266f9ff5782SEdwin Peer * of the request. Ownership can also be acquired in order to reuse the same
267f9ff5782SEdwin Peer * request object across multiple invocations of hwrm_req_send().
268f9ff5782SEdwin Peer *
269f9ff5782SEdwin Peer * Return: A pointer to the response object.
270f9ff5782SEdwin Peer *
271f9ff5782SEdwin Peer * The resources associated with the response will remain available to the
272f9ff5782SEdwin Peer * caller until ownership of the request is relinquished via a call to
273f9ff5782SEdwin Peer * hwrm_req_drop(). It is not possible for hwrm_req_hold() to return NULL if
274f9ff5782SEdwin Peer * a valid request is provided. A returned NULL value would imply a driver
275f9ff5782SEdwin Peer * bug and the implementation will complain loudly in the logs to aid in
276f9ff5782SEdwin Peer * detection. It should not be necessary to check the result for NULL.
277f9ff5782SEdwin Peer */
hwrm_req_hold(struct bnxt * bp,void * req)278f9ff5782SEdwin Peer void *hwrm_req_hold(struct bnxt *bp, void *req)
279f9ff5782SEdwin Peer {
280f9ff5782SEdwin Peer struct bnxt_hwrm_ctx *ctx = __hwrm_ctx(bp, req);
281f9ff5782SEdwin Peer struct input *input = (struct input *)req;
282f9ff5782SEdwin Peer
283f9ff5782SEdwin Peer if (!ctx)
284f9ff5782SEdwin Peer return NULL;
285f9ff5782SEdwin Peer
286f9ff5782SEdwin Peer if (ctx->flags & BNXT_HWRM_INTERNAL_CTX_OWNED) {
287f9ff5782SEdwin Peer /* can only be due to software bug, be loud */
288f9ff5782SEdwin Peer netdev_err(bp->dev, "HWRM context already owned, req_type = %u\n",
289f9ff5782SEdwin Peer (u32)le16_to_cpu(input->req_type));
290f9ff5782SEdwin Peer dump_stack();
291f9ff5782SEdwin Peer return NULL;
292f9ff5782SEdwin Peer }
293f9ff5782SEdwin Peer
294f9ff5782SEdwin Peer ctx->flags |= BNXT_HWRM_INTERNAL_CTX_OWNED;
295f9ff5782SEdwin Peer return ((u8 *)req) + BNXT_HWRM_RESP_OFFSET;
296f9ff5782SEdwin Peer }
297f9ff5782SEdwin Peer
__hwrm_ctx_drop(struct bnxt * bp,struct bnxt_hwrm_ctx * ctx)298f9ff5782SEdwin Peer static void __hwrm_ctx_drop(struct bnxt *bp, struct bnxt_hwrm_ctx *ctx)
299f9ff5782SEdwin Peer {
300f9ff5782SEdwin Peer void *addr = ((u8 *)ctx) - BNXT_HWRM_CTX_OFFSET;
301f9ff5782SEdwin Peer dma_addr_t dma_handle = ctx->dma_handle; /* save before invalidate */
302f9ff5782SEdwin Peer
30321380817SEdwin Peer /* unmap any auxiliary DMA slice */
30421380817SEdwin Peer if (ctx->slice_addr)
30521380817SEdwin Peer dma_free_coherent(&bp->pdev->dev, ctx->slice_size,
30621380817SEdwin Peer ctx->slice_addr, ctx->slice_handle);
30721380817SEdwin Peer
308f9ff5782SEdwin Peer /* invalidate, ensure ownership, sentinel and dma_handle are cleared */
309f9ff5782SEdwin Peer memset(ctx, 0, sizeof(struct bnxt_hwrm_ctx));
310f9ff5782SEdwin Peer
311f9ff5782SEdwin Peer /* return the buffer to the DMA pool */
312f9ff5782SEdwin Peer if (dma_handle)
313f9ff5782SEdwin Peer dma_pool_free(bp->hwrm_dma_pool, addr, dma_handle);
314f9ff5782SEdwin Peer }
315f9ff5782SEdwin Peer
316f9ff5782SEdwin Peer /**
317f9ff5782SEdwin Peer * hwrm_req_drop() - Release all resources associated with the request.
318f9ff5782SEdwin Peer * @bp: The driver context.
319f9ff5782SEdwin Peer * @req: The request to consume, releasing the associated resources. The
32021380817SEdwin Peer * request object, any slices, and its associated response are no
32121380817SEdwin Peer * longer valid.
322f9ff5782SEdwin Peer *
323f9ff5782SEdwin Peer * It is legal to call hwrm_req_drop() on an unowned request, provided it
324f9ff5782SEdwin Peer * has not already been consumed by hwrm_req_send() (for example, to release
325f9ff5782SEdwin Peer * an aborted request). A given request should not be dropped more than once,
326f9ff5782SEdwin Peer * nor should it be dropped after having been consumed by hwrm_req_send(). To
327f9ff5782SEdwin Peer * do so is an error (the context will not be found and a stack trace will be
328f9ff5782SEdwin Peer * rendered in the kernel log).
329f9ff5782SEdwin Peer */
hwrm_req_drop(struct bnxt * bp,void * req)330f9ff5782SEdwin Peer void hwrm_req_drop(struct bnxt *bp, void *req)
331f9ff5782SEdwin Peer {
332f9ff5782SEdwin Peer struct bnxt_hwrm_ctx *ctx = __hwrm_ctx(bp, req);
333f9ff5782SEdwin Peer
334f9ff5782SEdwin Peer if (ctx)
335f9ff5782SEdwin Peer __hwrm_ctx_drop(bp, ctx);
336f9ff5782SEdwin Peer }
337f9ff5782SEdwin Peer
__hwrm_to_stderr(u32 hwrm_err)338f9ff5782SEdwin Peer static int __hwrm_to_stderr(u32 hwrm_err)
3393c8c20dbSEdwin Peer {
3403c8c20dbSEdwin Peer switch (hwrm_err) {
3413c8c20dbSEdwin Peer case HWRM_ERR_CODE_SUCCESS:
3423c8c20dbSEdwin Peer return 0;
3433c8c20dbSEdwin Peer case HWRM_ERR_CODE_RESOURCE_LOCKED:
3443c8c20dbSEdwin Peer return -EROFS;
3453c8c20dbSEdwin Peer case HWRM_ERR_CODE_RESOURCE_ACCESS_DENIED:
3463c8c20dbSEdwin Peer return -EACCES;
3473c8c20dbSEdwin Peer case HWRM_ERR_CODE_RESOURCE_ALLOC_ERROR:
3483c8c20dbSEdwin Peer return -ENOSPC;
3493c8c20dbSEdwin Peer case HWRM_ERR_CODE_INVALID_PARAMS:
3503c8c20dbSEdwin Peer case HWRM_ERR_CODE_INVALID_FLAGS:
3513c8c20dbSEdwin Peer case HWRM_ERR_CODE_INVALID_ENABLES:
3523c8c20dbSEdwin Peer case HWRM_ERR_CODE_UNSUPPORTED_TLV:
3533c8c20dbSEdwin Peer case HWRM_ERR_CODE_UNSUPPORTED_OPTION_ERR:
3543c8c20dbSEdwin Peer return -EINVAL;
3553c8c20dbSEdwin Peer case HWRM_ERR_CODE_NO_BUFFER:
3563c8c20dbSEdwin Peer return -ENOMEM;
3573c8c20dbSEdwin Peer case HWRM_ERR_CODE_HOT_RESET_PROGRESS:
3583c8c20dbSEdwin Peer case HWRM_ERR_CODE_BUSY:
3593c8c20dbSEdwin Peer return -EAGAIN;
3603c8c20dbSEdwin Peer case HWRM_ERR_CODE_CMD_NOT_SUPPORTED:
3613c8c20dbSEdwin Peer return -EOPNOTSUPP;
362662c9b22SEdwin Peer case HWRM_ERR_CODE_PF_UNAVAILABLE:
363662c9b22SEdwin Peer return -ENODEV;
3643c8c20dbSEdwin Peer default:
3653c8c20dbSEdwin Peer return -EIO;
3663c8c20dbSEdwin Peer }
3673c8c20dbSEdwin Peer }
3683c8c20dbSEdwin Peer
36968f684e2SEdwin Peer static struct bnxt_hwrm_wait_token *
__hwrm_acquire_token(struct bnxt * bp,enum bnxt_hwrm_chnl dst)37068f684e2SEdwin Peer __hwrm_acquire_token(struct bnxt *bp, enum bnxt_hwrm_chnl dst)
37168f684e2SEdwin Peer {
37268f684e2SEdwin Peer struct bnxt_hwrm_wait_token *token;
37368f684e2SEdwin Peer
37468f684e2SEdwin Peer token = kzalloc(sizeof(*token), GFP_KERNEL);
37568f684e2SEdwin Peer if (!token)
37668f684e2SEdwin Peer return NULL;
37768f684e2SEdwin Peer
37868f684e2SEdwin Peer mutex_lock(&bp->hwrm_cmd_lock);
37968f684e2SEdwin Peer
38068f684e2SEdwin Peer token->dst = dst;
38168f684e2SEdwin Peer token->state = BNXT_HWRM_PENDING;
38268f684e2SEdwin Peer if (dst == BNXT_HWRM_CHNL_CHIMP) {
38368f684e2SEdwin Peer token->seq_id = bp->hwrm_cmd_seq++;
38468f684e2SEdwin Peer hlist_add_head_rcu(&token->node, &bp->hwrm_pending_list);
38568f684e2SEdwin Peer } else {
38668f684e2SEdwin Peer token->seq_id = bp->hwrm_cmd_kong_seq++;
38768f684e2SEdwin Peer }
38868f684e2SEdwin Peer
38968f684e2SEdwin Peer return token;
39068f684e2SEdwin Peer }
39168f684e2SEdwin Peer
39268f684e2SEdwin Peer static void
__hwrm_release_token(struct bnxt * bp,struct bnxt_hwrm_wait_token * token)39368f684e2SEdwin Peer __hwrm_release_token(struct bnxt *bp, struct bnxt_hwrm_wait_token *token)
39468f684e2SEdwin Peer {
39568f684e2SEdwin Peer if (token->dst == BNXT_HWRM_CHNL_CHIMP) {
39668f684e2SEdwin Peer hlist_del_rcu(&token->node);
39768f684e2SEdwin Peer kfree_rcu(token, rcu);
39868f684e2SEdwin Peer } else {
39968f684e2SEdwin Peer kfree(token);
40068f684e2SEdwin Peer }
40168f684e2SEdwin Peer mutex_unlock(&bp->hwrm_cmd_lock);
40268f684e2SEdwin Peer }
40368f684e2SEdwin Peer
40468f684e2SEdwin Peer void
hwrm_update_token(struct bnxt * bp,u16 seq_id,enum bnxt_hwrm_wait_state state)40568f684e2SEdwin Peer hwrm_update_token(struct bnxt *bp, u16 seq_id, enum bnxt_hwrm_wait_state state)
40668f684e2SEdwin Peer {
40768f684e2SEdwin Peer struct bnxt_hwrm_wait_token *token;
40868f684e2SEdwin Peer
40968f684e2SEdwin Peer rcu_read_lock();
41068f684e2SEdwin Peer hlist_for_each_entry_rcu(token, &bp->hwrm_pending_list, node) {
41168f684e2SEdwin Peer if (token->seq_id == seq_id) {
41268f684e2SEdwin Peer WRITE_ONCE(token->state, state);
41368f684e2SEdwin Peer rcu_read_unlock();
41468f684e2SEdwin Peer return;
41568f684e2SEdwin Peer }
41668f684e2SEdwin Peer }
41768f684e2SEdwin Peer rcu_read_unlock();
41868f684e2SEdwin Peer netdev_err(bp->dev, "Invalid hwrm seq id %d\n", seq_id);
41968f684e2SEdwin Peer }
42068f684e2SEdwin Peer
hwrm_req_dbg(struct bnxt * bp,struct input * req)4218fa4219dSEdwin Peer static void hwrm_req_dbg(struct bnxt *bp, struct input *req)
4228fa4219dSEdwin Peer {
4238fa4219dSEdwin Peer u32 ring = le16_to_cpu(req->cmpl_ring);
4248fa4219dSEdwin Peer u32 type = le16_to_cpu(req->req_type);
4258fa4219dSEdwin Peer u32 tgt = le16_to_cpu(req->target_id);
4268fa4219dSEdwin Peer u32 seq = le16_to_cpu(req->seq_id);
4278fa4219dSEdwin Peer char opt[32] = "\n";
4288fa4219dSEdwin Peer
4298fa4219dSEdwin Peer if (unlikely(ring != (u16)BNXT_HWRM_NO_CMPL_RING))
4308fa4219dSEdwin Peer snprintf(opt, 16, " ring %d\n", ring);
4318fa4219dSEdwin Peer
4328fa4219dSEdwin Peer if (unlikely(tgt != BNXT_HWRM_TARGET))
4338fa4219dSEdwin Peer snprintf(opt + strlen(opt) - 1, 16, " tgt 0x%x\n", tgt);
4348fa4219dSEdwin Peer
4358fa4219dSEdwin Peer netdev_dbg(bp->dev, "sent hwrm req_type 0x%x seq id 0x%x%s",
4368fa4219dSEdwin Peer type, seq, opt);
4378fa4219dSEdwin Peer }
4388fa4219dSEdwin Peer
4398fa4219dSEdwin Peer #define hwrm_err(bp, ctx, fmt, ...) \
4408fa4219dSEdwin Peer do { \
4418fa4219dSEdwin Peer if ((ctx)->flags & BNXT_HWRM_CTX_SILENT) \
4428fa4219dSEdwin Peer netdev_dbg((bp)->dev, fmt, __VA_ARGS__); \
4438fa4219dSEdwin Peer else \
4448fa4219dSEdwin Peer netdev_err((bp)->dev, fmt, __VA_ARGS__); \
4458fa4219dSEdwin Peer } while (0)
4468fa4219dSEdwin Peer
hwrm_wait_must_abort(struct bnxt * bp,u32 req_type,u32 * fw_status)4478c6f36d9SEdwin Peer static bool hwrm_wait_must_abort(struct bnxt *bp, u32 req_type, u32 *fw_status)
4488c6f36d9SEdwin Peer {
4498c6f36d9SEdwin Peer if (req_type == HWRM_VER_GET)
4508c6f36d9SEdwin Peer return false;
4518c6f36d9SEdwin Peer
4528c6f36d9SEdwin Peer if (!bp->fw_health || !bp->fw_health->status_reliable)
4538c6f36d9SEdwin Peer return false;
4548c6f36d9SEdwin Peer
4558c6f36d9SEdwin Peer *fw_status = bnxt_fw_health_readl(bp, BNXT_FW_HEALTH_REG);
4568c6f36d9SEdwin Peer return *fw_status && !BNXT_FW_IS_HEALTHY(*fw_status);
4578c6f36d9SEdwin Peer }
4588c6f36d9SEdwin Peer
__hwrm_send(struct bnxt * bp,struct bnxt_hwrm_ctx * ctx)459f9ff5782SEdwin Peer static int __hwrm_send(struct bnxt *bp, struct bnxt_hwrm_ctx *ctx)
4603c8c20dbSEdwin Peer {
4613c8c20dbSEdwin Peer u32 doorbell_offset = BNXT_GRCPF_REG_CHIMP_COMM_TRIGGER;
46268f684e2SEdwin Peer enum bnxt_hwrm_chnl dst = BNXT_HWRM_CHNL_CHIMP;
4633c8c20dbSEdwin Peer u32 bar_offset = BNXT_GRCPF_REG_CHIMP_COMM;
46468f684e2SEdwin Peer struct bnxt_hwrm_wait_token *token = NULL;
465f9ff5782SEdwin Peer struct hwrm_short_input short_input = {0};
466f9ff5782SEdwin Peer u16 max_req_len = BNXT_HWRM_MAX_REQ_LEN;
467f9ff5782SEdwin Peer unsigned int i, timeout, tmo_count;
468f9ff5782SEdwin Peer u32 *data = (u32 *)ctx->req;
469f9ff5782SEdwin Peer u32 msg_len = ctx->req_len;
4708c6f36d9SEdwin Peer u32 req_type, sts;
47168f684e2SEdwin Peer int rc = -EBUSY;
47268f684e2SEdwin Peer u16 len = 0;
473f9ff5782SEdwin Peer u8 *valid;
4743c8c20dbSEdwin Peer
475f9ff5782SEdwin Peer if (ctx->flags & BNXT_HWRM_INTERNAL_RESP_DIRTY)
476f9ff5782SEdwin Peer memset(ctx->resp, 0, PAGE_SIZE);
4773c8c20dbSEdwin Peer
478f9ff5782SEdwin Peer req_type = le16_to_cpu(ctx->req->req_type);
4790cf736a1SVikas Gupta if (BNXT_NO_FW_ACCESS(bp) &&
4800cf736a1SVikas Gupta (req_type != HWRM_FUNC_RESET && req_type != HWRM_VER_GET)) {
4818fa4219dSEdwin Peer netdev_dbg(bp->dev, "hwrm req_type 0x%x skipped, FW channel down\n",
4828fa4219dSEdwin Peer req_type);
483f9ff5782SEdwin Peer goto exit;
4848fa4219dSEdwin Peer }
485f9ff5782SEdwin Peer
486f9ff5782SEdwin Peer if (msg_len > BNXT_HWRM_MAX_REQ_LEN &&
487f9ff5782SEdwin Peer msg_len > bp->hwrm_max_ext_req_len) {
488f9ff5782SEdwin Peer rc = -E2BIG;
489f9ff5782SEdwin Peer goto exit;
4903c8c20dbSEdwin Peer }
4913c8c20dbSEdwin Peer
492f9ff5782SEdwin Peer if (bnxt_kong_hwrm_message(bp, ctx->req)) {
4933c8c20dbSEdwin Peer dst = BNXT_HWRM_CHNL_KONG;
4943c8c20dbSEdwin Peer bar_offset = BNXT_GRCPF_REG_KONG_COMM;
4953c8c20dbSEdwin Peer doorbell_offset = BNXT_GRCPF_REG_KONG_COMM_TRIGGER;
496f9ff5782SEdwin Peer if (le16_to_cpu(ctx->req->cmpl_ring) != INVALID_HW_RING_ID) {
497f9ff5782SEdwin Peer netdev_err(bp->dev, "Ring completions not supported for KONG commands, req_type = %d\n",
498f9ff5782SEdwin Peer req_type);
499f9ff5782SEdwin Peer rc = -EINVAL;
500f9ff5782SEdwin Peer goto exit;
501f9ff5782SEdwin Peer }
5023c8c20dbSEdwin Peer }
5033c8c20dbSEdwin Peer
50468f684e2SEdwin Peer token = __hwrm_acquire_token(bp, dst);
50568f684e2SEdwin Peer if (!token) {
50668f684e2SEdwin Peer rc = -ENOMEM;
50768f684e2SEdwin Peer goto exit;
50868f684e2SEdwin Peer }
50968f684e2SEdwin Peer ctx->req->seq_id = cpu_to_le16(token->seq_id);
5103c8c20dbSEdwin Peer
5113c8c20dbSEdwin Peer if ((bp->fw_cap & BNXT_FW_CAP_SHORT_CMD) ||
5123c8c20dbSEdwin Peer msg_len > BNXT_HWRM_MAX_REQ_LEN) {
513f9ff5782SEdwin Peer short_input.req_type = ctx->req->req_type;
5143c8c20dbSEdwin Peer short_input.signature =
5153c8c20dbSEdwin Peer cpu_to_le16(SHORT_REQ_SIGNATURE_SHORT_CMD);
5163c8c20dbSEdwin Peer short_input.size = cpu_to_le16(msg_len);
517f9ff5782SEdwin Peer short_input.req_addr = cpu_to_le64(ctx->dma_handle);
5183c8c20dbSEdwin Peer
5193c8c20dbSEdwin Peer data = (u32 *)&short_input;
5203c8c20dbSEdwin Peer msg_len = sizeof(short_input);
5213c8c20dbSEdwin Peer
5223c8c20dbSEdwin Peer max_req_len = BNXT_HWRM_SHORT_REQ_LEN;
5233c8c20dbSEdwin Peer }
5243c8c20dbSEdwin Peer
525f9ff5782SEdwin Peer /* Ensure any associated DMA buffers are written before doorbell */
526f9ff5782SEdwin Peer wmb();
527f9ff5782SEdwin Peer
5283c8c20dbSEdwin Peer /* Write request msg to hwrm channel */
5293c8c20dbSEdwin Peer __iowrite32_copy(bp->bar0 + bar_offset, data, msg_len / 4);
5303c8c20dbSEdwin Peer
5313c8c20dbSEdwin Peer for (i = msg_len; i < max_req_len; i += 4)
5323c8c20dbSEdwin Peer writel(0, bp->bar0 + bar_offset + i);
5333c8c20dbSEdwin Peer
5343c8c20dbSEdwin Peer /* Ring channel doorbell */
5353c8c20dbSEdwin Peer writel(1, bp->bar0 + doorbell_offset);
5363c8c20dbSEdwin Peer
5378fa4219dSEdwin Peer hwrm_req_dbg(bp, ctx->req);
5388fa4219dSEdwin Peer
539f9ff5782SEdwin Peer if (!pci_is_enabled(bp->pdev)) {
540f9ff5782SEdwin Peer rc = -ENODEV;
541f9ff5782SEdwin Peer goto exit;
542f9ff5782SEdwin Peer }
5433c8c20dbSEdwin Peer
5443c8c20dbSEdwin Peer /* Limit timeout to an upper limit */
545bce9a0b7SEdwin Peer timeout = min(ctx->timeout, bp->hwrm_cmd_max_timeout ?: HWRM_CMD_MAX_TIMEOUT);
5463c8c20dbSEdwin Peer /* convert timeout to usec */
5473c8c20dbSEdwin Peer timeout *= 1000;
5483c8c20dbSEdwin Peer
5493c8c20dbSEdwin Peer i = 0;
5503c8c20dbSEdwin Peer /* Short timeout for the first few iterations:
5513c8c20dbSEdwin Peer * number of loops = number of loops for short timeout +
5523c8c20dbSEdwin Peer * number of loops for standard timeout.
5533c8c20dbSEdwin Peer */
5543c8c20dbSEdwin Peer tmo_count = HWRM_SHORT_TIMEOUT_COUNTER;
5553c8c20dbSEdwin Peer timeout = timeout - HWRM_SHORT_MIN_TIMEOUT * HWRM_SHORT_TIMEOUT_COUNTER;
5563c8c20dbSEdwin Peer tmo_count += DIV_ROUND_UP(timeout, HWRM_MIN_TIMEOUT);
5573c8c20dbSEdwin Peer
55868f684e2SEdwin Peer if (le16_to_cpu(ctx->req->cmpl_ring) != INVALID_HW_RING_ID) {
5593c8c20dbSEdwin Peer /* Wait until hwrm response cmpl interrupt is processed */
56068f684e2SEdwin Peer while (READ_ONCE(token->state) < BNXT_HWRM_COMPLETE &&
5613c8c20dbSEdwin Peer i++ < tmo_count) {
5623c8c20dbSEdwin Peer /* Abort the wait for completion if the FW health
5633c8c20dbSEdwin Peer * check has failed.
5643c8c20dbSEdwin Peer */
5653c8c20dbSEdwin Peer if (test_bit(BNXT_STATE_FW_FATAL_COND, &bp->state))
566f9ff5782SEdwin Peer goto exit;
5673c8c20dbSEdwin Peer /* on first few passes, just barely sleep */
5683c8c20dbSEdwin Peer if (i < HWRM_SHORT_TIMEOUT_COUNTER) {
5693c8c20dbSEdwin Peer usleep_range(HWRM_SHORT_MIN_TIMEOUT,
5703c8c20dbSEdwin Peer HWRM_SHORT_MAX_TIMEOUT);
5713c8c20dbSEdwin Peer } else {
5728c6f36d9SEdwin Peer if (hwrm_wait_must_abort(bp, req_type, &sts)) {
5738c6f36d9SEdwin Peer hwrm_err(bp, ctx, "Resp cmpl intr abandoning msg: 0x%x due to firmware status: 0x%x\n",
5748c6f36d9SEdwin Peer req_type, sts);
5758c6f36d9SEdwin Peer goto exit;
5768c6f36d9SEdwin Peer }
5773c8c20dbSEdwin Peer usleep_range(HWRM_MIN_TIMEOUT,
5783c8c20dbSEdwin Peer HWRM_MAX_TIMEOUT);
5793c8c20dbSEdwin Peer }
5803c8c20dbSEdwin Peer }
5813c8c20dbSEdwin Peer
58268f684e2SEdwin Peer if (READ_ONCE(token->state) != BNXT_HWRM_COMPLETE) {
5838fa4219dSEdwin Peer hwrm_err(bp, ctx, "Resp cmpl intr err msg: 0x%x\n",
5848fa4219dSEdwin Peer req_type);
585f9ff5782SEdwin Peer goto exit;
5863c8c20dbSEdwin Peer }
58702b9aa10SEdwin Peer len = le16_to_cpu(READ_ONCE(ctx->resp->resp_len));
588f9ff5782SEdwin Peer valid = ((u8 *)ctx->resp) + len - 1;
5893c8c20dbSEdwin Peer } else {
59002b9aa10SEdwin Peer __le16 seen_out_of_seq = ctx->req->seq_id; /* will never see */
5913c8c20dbSEdwin Peer int j;
5923c8c20dbSEdwin Peer
5933c8c20dbSEdwin Peer /* Check if response len is updated */
5943c8c20dbSEdwin Peer for (i = 0; i < tmo_count; i++) {
5953c8c20dbSEdwin Peer /* Abort the wait for completion if the FW health
5963c8c20dbSEdwin Peer * check has failed.
5973c8c20dbSEdwin Peer */
5983c8c20dbSEdwin Peer if (test_bit(BNXT_STATE_FW_FATAL_COND, &bp->state))
599f9ff5782SEdwin Peer goto exit;
60068f684e2SEdwin Peer
60168f684e2SEdwin Peer if (token &&
60268f684e2SEdwin Peer READ_ONCE(token->state) == BNXT_HWRM_DEFERRED) {
60368f684e2SEdwin Peer __hwrm_release_token(bp, token);
60468f684e2SEdwin Peer token = NULL;
60568f684e2SEdwin Peer }
60668f684e2SEdwin Peer
60702b9aa10SEdwin Peer len = le16_to_cpu(READ_ONCE(ctx->resp->resp_len));
60802b9aa10SEdwin Peer if (len) {
60902b9aa10SEdwin Peer __le16 resp_seq = READ_ONCE(ctx->resp->seq_id);
61002b9aa10SEdwin Peer
61102b9aa10SEdwin Peer if (resp_seq == ctx->req->seq_id)
6123c8c20dbSEdwin Peer break;
61302b9aa10SEdwin Peer if (resp_seq != seen_out_of_seq) {
61402b9aa10SEdwin Peer netdev_warn(bp->dev, "Discarding out of seq response: 0x%x for msg {0x%x 0x%x}\n",
61502b9aa10SEdwin Peer le16_to_cpu(resp_seq),
6168fa4219dSEdwin Peer req_type,
61702b9aa10SEdwin Peer le16_to_cpu(ctx->req->seq_id));
61802b9aa10SEdwin Peer seen_out_of_seq = resp_seq;
61902b9aa10SEdwin Peer }
62002b9aa10SEdwin Peer }
62102b9aa10SEdwin Peer
6223c8c20dbSEdwin Peer /* on first few passes, just barely sleep */
6233c8c20dbSEdwin Peer if (i < HWRM_SHORT_TIMEOUT_COUNTER) {
6243c8c20dbSEdwin Peer usleep_range(HWRM_SHORT_MIN_TIMEOUT,
6253c8c20dbSEdwin Peer HWRM_SHORT_MAX_TIMEOUT);
6263c8c20dbSEdwin Peer } else {
6278c6f36d9SEdwin Peer if (hwrm_wait_must_abort(bp, req_type, &sts)) {
6288c6f36d9SEdwin Peer hwrm_err(bp, ctx, "Abandoning msg {0x%x 0x%x} len: %d due to firmware status: 0x%x\n",
6298c6f36d9SEdwin Peer req_type,
6308c6f36d9SEdwin Peer le16_to_cpu(ctx->req->seq_id),
6318c6f36d9SEdwin Peer len, sts);
6328c6f36d9SEdwin Peer goto exit;
6338c6f36d9SEdwin Peer }
6343c8c20dbSEdwin Peer usleep_range(HWRM_MIN_TIMEOUT,
6353c8c20dbSEdwin Peer HWRM_MAX_TIMEOUT);
6363c8c20dbSEdwin Peer }
6373c8c20dbSEdwin Peer }
6383c8c20dbSEdwin Peer
6393c8c20dbSEdwin Peer if (i >= tmo_count) {
6408fa4219dSEdwin Peer hwrm_err(bp, ctx, "Error (timeout: %u) msg {0x%x 0x%x} len:%d\n",
6418fa4219dSEdwin Peer hwrm_total_timeout(i), req_type,
642f9ff5782SEdwin Peer le16_to_cpu(ctx->req->seq_id), len);
643f9ff5782SEdwin Peer goto exit;
6443c8c20dbSEdwin Peer }
6453c8c20dbSEdwin Peer
6463c8c20dbSEdwin Peer /* Last byte of resp contains valid bit */
647f9ff5782SEdwin Peer valid = ((u8 *)ctx->resp) + len - 1;
648b891106dSMichael Chan for (j = 0; j < HWRM_VALID_BIT_DELAY_USEC; ) {
6493c8c20dbSEdwin Peer /* make sure we read from updated DMA memory */
6503c8c20dbSEdwin Peer dma_rmb();
6513c8c20dbSEdwin Peer if (*valid)
6523c8c20dbSEdwin Peer break;
653b891106dSMichael Chan if (j < 10) {
654b891106dSMichael Chan udelay(1);
655b891106dSMichael Chan j++;
656b891106dSMichael Chan } else {
657b891106dSMichael Chan usleep_range(20, 30);
658b891106dSMichael Chan j += 20;
659b891106dSMichael Chan }
6603c8c20dbSEdwin Peer }
6613c8c20dbSEdwin Peer
6623c8c20dbSEdwin Peer if (j >= HWRM_VALID_BIT_DELAY_USEC) {
6638fa4219dSEdwin Peer hwrm_err(bp, ctx, "Error (timeout: %u) msg {0x%x 0x%x} len:%d v:%d\n",
664b891106dSMichael Chan hwrm_total_timeout(i) + j, req_type,
6658fa4219dSEdwin Peer le16_to_cpu(ctx->req->seq_id), len, *valid);
666f9ff5782SEdwin Peer goto exit;
6673c8c20dbSEdwin Peer }
6683c8c20dbSEdwin Peer }
6693c8c20dbSEdwin Peer
6703c8c20dbSEdwin Peer /* Zero valid bit for compatibility. Valid bit in an older spec
6713c8c20dbSEdwin Peer * may become a new field in a newer spec. We must make sure that
6723c8c20dbSEdwin Peer * a new field not implemented by old spec will read zero.
6733c8c20dbSEdwin Peer */
6743c8c20dbSEdwin Peer *valid = 0;
675f9ff5782SEdwin Peer rc = le16_to_cpu(ctx->resp->error_code);
6768fa4219dSEdwin Peer if (rc == HWRM_ERR_CODE_BUSY && !(ctx->flags & BNXT_HWRM_CTX_SILENT))
6778fa4219dSEdwin Peer netdev_warn(bp->dev, "FW returned busy, hwrm req_type 0x%x\n",
6788fa4219dSEdwin Peer req_type);
679662c9b22SEdwin Peer else if (rc && rc != HWRM_ERR_CODE_PF_UNAVAILABLE)
6808fa4219dSEdwin Peer hwrm_err(bp, ctx, "hwrm req_type 0x%x seq id 0x%x error 0x%x\n",
681ca6660c9SAleksandr Mishin req_type, le16_to_cpu(ctx->req->seq_id), rc);
682f9ff5782SEdwin Peer rc = __hwrm_to_stderr(rc);
683f9ff5782SEdwin Peer exit:
68468f684e2SEdwin Peer if (token)
68568f684e2SEdwin Peer __hwrm_release_token(bp, token);
686f9ff5782SEdwin Peer if (ctx->flags & BNXT_HWRM_INTERNAL_CTX_OWNED)
687f9ff5782SEdwin Peer ctx->flags |= BNXT_HWRM_INTERNAL_RESP_DIRTY;
688f9ff5782SEdwin Peer else
689f9ff5782SEdwin Peer __hwrm_ctx_drop(bp, ctx);
690f9ff5782SEdwin Peer return rc;
691f9ff5782SEdwin Peer }
692f9ff5782SEdwin Peer
693f9ff5782SEdwin Peer /**
694f9ff5782SEdwin Peer * hwrm_req_send() - Execute an HWRM command.
695f9ff5782SEdwin Peer * @bp: The driver context.
696f9ff5782SEdwin Peer * @req: A pointer to the request to send. The DMA resources associated with
697f9ff5782SEdwin Peer * the request will be released (ie. the request will be consumed) unless
698f9ff5782SEdwin Peer * ownership of the request has been assumed by the caller via a call to
699f9ff5782SEdwin Peer * hwrm_req_hold().
700f9ff5782SEdwin Peer *
701f9ff5782SEdwin Peer * Send an HWRM request to the device and wait for a response. The request is
702f9ff5782SEdwin Peer * consumed if it is not owned by the caller. This function will block until
703f9ff5782SEdwin Peer * the request has either completed or times out due to an error.
704f9ff5782SEdwin Peer *
705f9ff5782SEdwin Peer * Return: A result code.
706f9ff5782SEdwin Peer *
707f9ff5782SEdwin Peer * The result is zero on success, otherwise the negative error code indicates
708f9ff5782SEdwin Peer * one of the following errors:
709f9ff5782SEdwin Peer * E2BIG: The request was too large.
710f9ff5782SEdwin Peer * EBUSY: The firmware is in a fatal state or the request timed out
711f9ff5782SEdwin Peer * EACCESS: HWRM access denied.
712f9ff5782SEdwin Peer * ENOSPC: HWRM resource allocation error.
713f9ff5782SEdwin Peer * EINVAL: Request parameters are invalid.
714f9ff5782SEdwin Peer * ENOMEM: HWRM has no buffers.
715f9ff5782SEdwin Peer * EAGAIN: HWRM busy or reset in progress.
716f9ff5782SEdwin Peer * EOPNOTSUPP: Invalid request type.
717f9ff5782SEdwin Peer * EIO: Any other error.
718f9ff5782SEdwin Peer * Error handling is orthogonal to request ownership. An unowned request will
719f9ff5782SEdwin Peer * still be consumed on error. If the caller owns the request, then the caller
720f9ff5782SEdwin Peer * is responsible for releasing the resources. Otherwise, hwrm_req_send() will
721f9ff5782SEdwin Peer * always consume the request.
722f9ff5782SEdwin Peer */
hwrm_req_send(struct bnxt * bp,void * req)723f9ff5782SEdwin Peer int hwrm_req_send(struct bnxt *bp, void *req)
724f9ff5782SEdwin Peer {
725f9ff5782SEdwin Peer struct bnxt_hwrm_ctx *ctx = __hwrm_ctx(bp, req);
726f9ff5782SEdwin Peer
727f9ff5782SEdwin Peer if (!ctx)
728f9ff5782SEdwin Peer return -EINVAL;
729f9ff5782SEdwin Peer
73068f684e2SEdwin Peer return __hwrm_send(bp, ctx);
731f9ff5782SEdwin Peer }
732f9ff5782SEdwin Peer
733f9ff5782SEdwin Peer /**
734f9ff5782SEdwin Peer * hwrm_req_send_silent() - A silent version of hwrm_req_send().
735f9ff5782SEdwin Peer * @bp: The driver context.
736f9ff5782SEdwin Peer * @req: The request to send without logging.
737f9ff5782SEdwin Peer *
738f9ff5782SEdwin Peer * The same as hwrm_req_send(), except that the request is silenced using
739f9ff5782SEdwin Peer * hwrm_req_silence() prior the call. This version of the function is
740f9ff5782SEdwin Peer * provided solely to preserve the legacy API’s flavor for this functionality.
741f9ff5782SEdwin Peer *
742f9ff5782SEdwin Peer * Return: A result code, see hwrm_req_send().
743f9ff5782SEdwin Peer */
hwrm_req_send_silent(struct bnxt * bp,void * req)744f9ff5782SEdwin Peer int hwrm_req_send_silent(struct bnxt *bp, void *req)
745f9ff5782SEdwin Peer {
746f9ff5782SEdwin Peer hwrm_req_flags(bp, req, BNXT_HWRM_CTX_SILENT);
747f9ff5782SEdwin Peer return hwrm_req_send(bp, req);
748f9ff5782SEdwin Peer }
74921380817SEdwin Peer
75021380817SEdwin Peer /**
75121380817SEdwin Peer * hwrm_req_dma_slice() - Allocate a slice of DMA mapped memory.
75221380817SEdwin Peer * @bp: The driver context.
75321380817SEdwin Peer * @req: The request for which indirect data will be associated.
75421380817SEdwin Peer * @size: The size of the allocation.
7555240118fSEdwin Peer * @dma_handle: The bus address associated with the allocation. The HWRM API has
7565240118fSEdwin Peer * no knowledge about the type of the request and so cannot infer how the
75721380817SEdwin Peer * caller intends to use the indirect data. Thus, the caller is
75821380817SEdwin Peer * responsible for configuring the request object appropriately to
75921380817SEdwin Peer * point to the associated indirect memory. Note, DMA handle has the
76021380817SEdwin Peer * same definition as it does in dma_alloc_coherent(), the caller is
76121380817SEdwin Peer * responsible for endian conversions via cpu_to_le64() before assigning
76221380817SEdwin Peer * this address.
76321380817SEdwin Peer *
76421380817SEdwin Peer * Allocates DMA mapped memory for indirect data related to a request. The
76521380817SEdwin Peer * lifetime of the DMA resources will be bound to that of the request (ie.
76621380817SEdwin Peer * they will be automatically released when the request is either consumed by
76721380817SEdwin Peer * hwrm_req_send() or dropped by hwrm_req_drop()). Small allocations are
76821380817SEdwin Peer * efficiently suballocated out of the request buffer space, hence the name
76921380817SEdwin Peer * slice, while larger requests are satisfied via an underlying call to
77021380817SEdwin Peer * dma_alloc_coherent(). Multiple suballocations are supported, however, only
77121380817SEdwin Peer * one externally mapped region is.
77221380817SEdwin Peer *
77321380817SEdwin Peer * Return: The kernel virtual address of the DMA mapping.
77421380817SEdwin Peer */
77521380817SEdwin Peer void *
hwrm_req_dma_slice(struct bnxt * bp,void * req,u32 size,dma_addr_t * dma_handle)77621380817SEdwin Peer hwrm_req_dma_slice(struct bnxt *bp, void *req, u32 size, dma_addr_t *dma_handle)
77721380817SEdwin Peer {
77821380817SEdwin Peer struct bnxt_hwrm_ctx *ctx = __hwrm_ctx(bp, req);
77921380817SEdwin Peer u8 *end = ((u8 *)req) + BNXT_HWRM_DMA_SIZE;
78021380817SEdwin Peer struct input *input = req;
78121380817SEdwin Peer u8 *addr, *req_addr = req;
78221380817SEdwin Peer u32 max_offset, offset;
78321380817SEdwin Peer
78421380817SEdwin Peer if (!ctx)
78521380817SEdwin Peer return NULL;
78621380817SEdwin Peer
78721380817SEdwin Peer max_offset = BNXT_HWRM_DMA_SIZE - ctx->allocated;
78821380817SEdwin Peer offset = max_offset - size;
78921380817SEdwin Peer offset = ALIGN_DOWN(offset, BNXT_HWRM_DMA_ALIGN);
79021380817SEdwin Peer addr = req_addr + offset;
79121380817SEdwin Peer
79221380817SEdwin Peer if (addr < req_addr + max_offset && req_addr + ctx->req_len <= addr) {
79321380817SEdwin Peer ctx->allocated = end - addr;
79421380817SEdwin Peer *dma_handle = ctx->dma_handle + offset;
79521380817SEdwin Peer return addr;
79621380817SEdwin Peer }
79721380817SEdwin Peer
79821380817SEdwin Peer /* could not suballocate from ctx buffer, try create a new mapping */
79921380817SEdwin Peer if (ctx->slice_addr) {
80021380817SEdwin Peer /* if one exists, can only be due to software bug, be loud */
80121380817SEdwin Peer netdev_err(bp->dev, "HWRM refusing to reallocate DMA slice, req_type = %u\n",
80221380817SEdwin Peer (u32)le16_to_cpu(input->req_type));
80321380817SEdwin Peer dump_stack();
80421380817SEdwin Peer return NULL;
80521380817SEdwin Peer }
80621380817SEdwin Peer
80721380817SEdwin Peer addr = dma_alloc_coherent(&bp->pdev->dev, size, dma_handle, ctx->gfp);
80821380817SEdwin Peer
80921380817SEdwin Peer if (!addr)
81021380817SEdwin Peer return NULL;
81121380817SEdwin Peer
81221380817SEdwin Peer ctx->slice_addr = addr;
81321380817SEdwin Peer ctx->slice_size = size;
81421380817SEdwin Peer ctx->slice_handle = *dma_handle;
81521380817SEdwin Peer
81621380817SEdwin Peer return addr;
81721380817SEdwin Peer }
818