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57 #include "unsolicited_frame_control.h"
58 #include "registers.h"
60 int sci_unsolicited_frame_control_construct(struct isci_host
*ihost
)
62 struct sci_unsolicited_frame_control
*uf_control
= &ihost
->uf_control
;
63 struct sci_unsolicited_frame
*uf
;
64 u32 buf_len
, header_len
, i
;
70 * Prepare all of the memory sizes for the UF headers, UF address
71 * table, and UF buffers themselves.
73 buf_len
= SCU_MAX_UNSOLICITED_FRAMES
* SCU_UNSOLICITED_FRAME_BUFFER_SIZE
;
74 header_len
= SCU_MAX_UNSOLICITED_FRAMES
* sizeof(struct scu_unsolicited_frame_header
);
75 size
= buf_len
+ header_len
+ SCU_MAX_UNSOLICITED_FRAMES
* sizeof(dma_addr_t
);
78 * The Unsolicited Frame buffers are set at the start of the UF
79 * memory descriptor entry. The headers and address table will be
80 * placed after the buffers.
82 virt
= dmam_alloc_coherent(&ihost
->pdev
->dev
, size
, &dma
, GFP_KERNEL
);
87 * Program the location of the UF header table into the SCU.
89 * - The address must align on a 64-byte boundary. Guaranteed to be
90 * on 64-byte boundary already 1KB boundary for unsolicited frames.
91 * - Program unused header entries to overlap with the last
92 * unsolicited frame. The silicon will never DMA to these unused
93 * headers, since we program the UF address table pointers to
96 uf_control
->headers
.physical_address
= dma
+ buf_len
;
97 uf_control
->headers
.array
= virt
+ buf_len
;
100 * Program the location of the UF address table into the SCU.
102 * - The address must align on a 64-bit boundary. Guaranteed to be on 64
103 * byte boundary already due to above programming headers being on a
104 * 64-bit boundary and headers are on a 64-bytes in size.
106 uf_control
->address_table
.physical_address
= dma
+ buf_len
+ header_len
;
107 uf_control
->address_table
.array
= virt
+ buf_len
+ header_len
;
111 * UF buffer requirements are:
112 * - The last entry in the UF queue is not NULL.
113 * - There is a power of 2 number of entries (NULL or not-NULL)
114 * programmed into the queue.
115 * - Aligned on a 1KB boundary. */
118 * Program the actual used UF buffers into the UF address table and
119 * the controller's array of UFs.
121 for (i
= 0; i
< SCU_MAX_UNSOLICITED_FRAMES
; i
++) {
122 uf
= &uf_control
->buffers
.array
[i
];
124 uf_control
->address_table
.array
[i
] = dma
;
127 uf
->header
= &uf_control
->headers
.array
[i
];
128 uf
->state
= UNSOLICITED_FRAME_EMPTY
;
131 * Increment the address of the physical and virtual memory
132 * pointers. Everything is aligned on 1k boundary with an
135 virt
+= SCU_UNSOLICITED_FRAME_BUFFER_SIZE
;
136 dma
+= SCU_UNSOLICITED_FRAME_BUFFER_SIZE
;
142 enum sci_status
sci_unsolicited_frame_control_get_header(struct sci_unsolicited_frame_control
*uf_control
,
146 if (frame_index
< SCU_MAX_UNSOLICITED_FRAMES
) {
147 /* Skip the first word in the frame since this is a controll word used
150 *frame_header
= &uf_control
->buffers
.array
[frame_index
].header
->data
;
155 return SCI_FAILURE_INVALID_PARAMETER_VALUE
;
158 enum sci_status
sci_unsolicited_frame_control_get_buffer(struct sci_unsolicited_frame_control
*uf_control
,
162 if (frame_index
< SCU_MAX_UNSOLICITED_FRAMES
) {
163 *frame_buffer
= uf_control
->buffers
.array
[frame_index
].buffer
;
168 return SCI_FAILURE_INVALID_PARAMETER_VALUE
;
171 bool sci_unsolicited_frame_control_release_frame(struct sci_unsolicited_frame_control
*uf_control
,
177 frame_get
= uf_control
->get
& (SCU_MAX_UNSOLICITED_FRAMES
- 1);
178 frame_cycle
= uf_control
->get
& SCU_MAX_UNSOLICITED_FRAMES
;
181 * In the event there are NULL entries in the UF table, we need to
182 * advance the get pointer in order to find out if this frame should
183 * be released (i.e. update the get pointer)
185 while (lower_32_bits(uf_control
->address_table
.array
[frame_get
]) == 0 &&
186 upper_32_bits(uf_control
->address_table
.array
[frame_get
]) == 0 &&
187 frame_get
< SCU_MAX_UNSOLICITED_FRAMES
)
191 * The table has a NULL entry as it's last element. This is
194 BUG_ON(frame_get
>= SCU_MAX_UNSOLICITED_FRAMES
);
195 if (frame_index
>= SCU_MAX_UNSOLICITED_FRAMES
)
198 uf_control
->buffers
.array
[frame_index
].state
= UNSOLICITED_FRAME_RELEASED
;
200 if (frame_get
!= frame_index
) {
202 * Frames remain in use until we advance the get pointer
203 * so there is nothing we can do here
209 * The frame index is equal to the current get pointer so we
210 * can now free up all of the frame entries that
212 while (uf_control
->buffers
.array
[frame_get
].state
== UNSOLICITED_FRAME_RELEASED
) {
213 uf_control
->buffers
.array
[frame_get
].state
= UNSOLICITED_FRAME_EMPTY
;
215 if (frame_get
+1 == SCU_MAX_UNSOLICITED_FRAMES
-1) {
216 frame_cycle
^= SCU_MAX_UNSOLICITED_FRAMES
;
222 uf_control
->get
= SCU_UFQGP_GEN_BIT(ENABLE_BIT
) | frame_cycle
| frame_get
;