1b1f01e48SShun-Chih Yu // SPDX-License-Identifier: GPL-2.0
2b1f01e48SShun-Chih Yu // Copyright (c) 2018-2019 MediaTek Inc.
3b1f01e48SShun-Chih Yu
4b1f01e48SShun-Chih Yu /*
5b1f01e48SShun-Chih Yu * Driver for MediaTek Command-Queue DMA Controller
6b1f01e48SShun-Chih Yu *
7b1f01e48SShun-Chih Yu * Author: Shun-Chih Yu <shun-chih.yu@mediatek.com>
8b1f01e48SShun-Chih Yu *
9b1f01e48SShun-Chih Yu */
10b1f01e48SShun-Chih Yu
11b1f01e48SShun-Chih Yu #include <linux/bitops.h>
12b1f01e48SShun-Chih Yu #include <linux/clk.h>
13b1f01e48SShun-Chih Yu #include <linux/dmaengine.h>
14b1f01e48SShun-Chih Yu #include <linux/dma-mapping.h>
15b1f01e48SShun-Chih Yu #include <linux/err.h>
16b1f01e48SShun-Chih Yu #include <linux/iopoll.h>
17b1f01e48SShun-Chih Yu #include <linux/interrupt.h>
18b1f01e48SShun-Chih Yu #include <linux/list.h>
19b1f01e48SShun-Chih Yu #include <linux/module.h>
20b1f01e48SShun-Chih Yu #include <linux/of.h>
21b1f01e48SShun-Chih Yu #include <linux/of_dma.h>
22b1f01e48SShun-Chih Yu #include <linux/platform_device.h>
23b1f01e48SShun-Chih Yu #include <linux/pm_runtime.h>
24b1f01e48SShun-Chih Yu #include <linux/refcount.h>
25b1f01e48SShun-Chih Yu #include <linux/slab.h>
26b1f01e48SShun-Chih Yu
27b1f01e48SShun-Chih Yu #include "../virt-dma.h"
28b1f01e48SShun-Chih Yu
29b1f01e48SShun-Chih Yu #define MTK_CQDMA_USEC_POLL 10
30b1f01e48SShun-Chih Yu #define MTK_CQDMA_TIMEOUT_POLL 1000
31b1f01e48SShun-Chih Yu #define MTK_CQDMA_DMA_BUSWIDTHS BIT(DMA_SLAVE_BUSWIDTH_4_BYTES)
32b1f01e48SShun-Chih Yu #define MTK_CQDMA_ALIGN_SIZE 1
33b1f01e48SShun-Chih Yu
34b1f01e48SShun-Chih Yu /* The default number of virtual channel */
35b1f01e48SShun-Chih Yu #define MTK_CQDMA_NR_VCHANS 32
36b1f01e48SShun-Chih Yu
37b1f01e48SShun-Chih Yu /* The default number of physical channel */
38b1f01e48SShun-Chih Yu #define MTK_CQDMA_NR_PCHANS 3
39b1f01e48SShun-Chih Yu
40b1f01e48SShun-Chih Yu /* Registers for underlying dma manipulation */
41b1f01e48SShun-Chih Yu #define MTK_CQDMA_INT_FLAG 0x0
42b1f01e48SShun-Chih Yu #define MTK_CQDMA_INT_EN 0x4
43b1f01e48SShun-Chih Yu #define MTK_CQDMA_EN 0x8
44b1f01e48SShun-Chih Yu #define MTK_CQDMA_RESET 0xc
45b1f01e48SShun-Chih Yu #define MTK_CQDMA_FLUSH 0x14
46b1f01e48SShun-Chih Yu #define MTK_CQDMA_SRC 0x1c
47b1f01e48SShun-Chih Yu #define MTK_CQDMA_DST 0x20
48b1f01e48SShun-Chih Yu #define MTK_CQDMA_LEN1 0x24
49b1f01e48SShun-Chih Yu #define MTK_CQDMA_LEN2 0x28
50b1f01e48SShun-Chih Yu #define MTK_CQDMA_SRC2 0x60
51b1f01e48SShun-Chih Yu #define MTK_CQDMA_DST2 0x64
52b1f01e48SShun-Chih Yu
53b1f01e48SShun-Chih Yu /* Registers setting */
54b1f01e48SShun-Chih Yu #define MTK_CQDMA_EN_BIT BIT(0)
55b1f01e48SShun-Chih Yu #define MTK_CQDMA_INT_FLAG_BIT BIT(0)
56b1f01e48SShun-Chih Yu #define MTK_CQDMA_INT_EN_BIT BIT(0)
57b1f01e48SShun-Chih Yu #define MTK_CQDMA_FLUSH_BIT BIT(0)
58b1f01e48SShun-Chih Yu
59b1f01e48SShun-Chih Yu #define MTK_CQDMA_WARM_RST_BIT BIT(0)
60b1f01e48SShun-Chih Yu #define MTK_CQDMA_HARD_RST_BIT BIT(1)
61b1f01e48SShun-Chih Yu
62b1f01e48SShun-Chih Yu #define MTK_CQDMA_MAX_LEN GENMASK(27, 0)
63b1f01e48SShun-Chih Yu #define MTK_CQDMA_ADDR_LIMIT GENMASK(31, 0)
64b1f01e48SShun-Chih Yu #define MTK_CQDMA_ADDR2_SHFIT (32)
65b1f01e48SShun-Chih Yu
66b1f01e48SShun-Chih Yu /**
67b1f01e48SShun-Chih Yu * struct mtk_cqdma_vdesc - The struct holding info describing virtual
68b1f01e48SShun-Chih Yu * descriptor (CVD)
69b1f01e48SShun-Chih Yu * @vd: An instance for struct virt_dma_desc
70b1f01e48SShun-Chih Yu * @len: The total data size device wants to move
71b1f01e48SShun-Chih Yu * @residue: The remaining data size device will move
72b1f01e48SShun-Chih Yu * @dest: The destination address device wants to move to
73b1f01e48SShun-Chih Yu * @src: The source address device wants to move from
74b1f01e48SShun-Chih Yu * @ch: The pointer to the corresponding dma channel
75b1f01e48SShun-Chih Yu * @node: The lise_head struct to build link-list for VDs
76b1f01e48SShun-Chih Yu * @parent: The pointer to the parent CVD
77b1f01e48SShun-Chih Yu */
78b1f01e48SShun-Chih Yu struct mtk_cqdma_vdesc {
79b1f01e48SShun-Chih Yu struct virt_dma_desc vd;
80b1f01e48SShun-Chih Yu size_t len;
81b1f01e48SShun-Chih Yu size_t residue;
82b1f01e48SShun-Chih Yu dma_addr_t dest;
83b1f01e48SShun-Chih Yu dma_addr_t src;
84b1f01e48SShun-Chih Yu struct dma_chan *ch;
85b1f01e48SShun-Chih Yu
86b1f01e48SShun-Chih Yu struct list_head node;
87b1f01e48SShun-Chih Yu struct mtk_cqdma_vdesc *parent;
88b1f01e48SShun-Chih Yu };
89b1f01e48SShun-Chih Yu
90b1f01e48SShun-Chih Yu /**
91b1f01e48SShun-Chih Yu * struct mtk_cqdma_pchan - The struct holding info describing physical
92b1f01e48SShun-Chih Yu * channel (PC)
93b1f01e48SShun-Chih Yu * @queue: Queue for the PDs issued to this PC
94b1f01e48SShun-Chih Yu * @base: The mapped register I/O base of this PC
95b1f01e48SShun-Chih Yu * @irq: The IRQ that this PC are using
96b1f01e48SShun-Chih Yu * @refcnt: Track how many VCs are using this PC
97b1f01e48SShun-Chih Yu * @tasklet: Tasklet for this PC
98b1f01e48SShun-Chih Yu * @lock: Lock protect agaisting multiple VCs access PC
99b1f01e48SShun-Chih Yu */
100b1f01e48SShun-Chih Yu struct mtk_cqdma_pchan {
101b1f01e48SShun-Chih Yu struct list_head queue;
102b1f01e48SShun-Chih Yu void __iomem *base;
103b1f01e48SShun-Chih Yu u32 irq;
104b1f01e48SShun-Chih Yu
105b1f01e48SShun-Chih Yu refcount_t refcnt;
106b1f01e48SShun-Chih Yu
107b1f01e48SShun-Chih Yu struct tasklet_struct tasklet;
108b1f01e48SShun-Chih Yu
109b1f01e48SShun-Chih Yu /* lock to protect PC */
110b1f01e48SShun-Chih Yu spinlock_t lock;
111b1f01e48SShun-Chih Yu };
112b1f01e48SShun-Chih Yu
113b1f01e48SShun-Chih Yu /**
114b1f01e48SShun-Chih Yu * struct mtk_cqdma_vchan - The struct holding info describing virtual
115b1f01e48SShun-Chih Yu * channel (VC)
116b1f01e48SShun-Chih Yu * @vc: An instance for struct virt_dma_chan
117b1f01e48SShun-Chih Yu * @pc: The pointer to the underlying PC
118b1f01e48SShun-Chih Yu * @issue_completion: The wait for all issued descriptors completited
119b1f01e48SShun-Chih Yu * @issue_synchronize: Bool indicating channel synchronization starts
120b1f01e48SShun-Chih Yu */
121b1f01e48SShun-Chih Yu struct mtk_cqdma_vchan {
122b1f01e48SShun-Chih Yu struct virt_dma_chan vc;
123b1f01e48SShun-Chih Yu struct mtk_cqdma_pchan *pc;
124b1f01e48SShun-Chih Yu struct completion issue_completion;
125b1f01e48SShun-Chih Yu bool issue_synchronize;
126b1f01e48SShun-Chih Yu };
127b1f01e48SShun-Chih Yu
128b1f01e48SShun-Chih Yu /**
129b1f01e48SShun-Chih Yu * struct mtk_cqdma_device - The struct holding info describing CQDMA
130b1f01e48SShun-Chih Yu * device
131b1f01e48SShun-Chih Yu * @ddev: An instance for struct dma_device
132b1f01e48SShun-Chih Yu * @clk: The clock that device internal is using
133b1f01e48SShun-Chih Yu * @dma_requests: The number of VCs the device supports to
134b1f01e48SShun-Chih Yu * @dma_channels: The number of PCs the device supports to
135b1f01e48SShun-Chih Yu * @vc: The pointer to all available VCs
136b1f01e48SShun-Chih Yu * @pc: The pointer to all the underlying PCs
137b1f01e48SShun-Chih Yu */
138b1f01e48SShun-Chih Yu struct mtk_cqdma_device {
139b1f01e48SShun-Chih Yu struct dma_device ddev;
140b1f01e48SShun-Chih Yu struct clk *clk;
141b1f01e48SShun-Chih Yu
142b1f01e48SShun-Chih Yu u32 dma_requests;
143b1f01e48SShun-Chih Yu u32 dma_channels;
144b1f01e48SShun-Chih Yu struct mtk_cqdma_vchan *vc;
145b1f01e48SShun-Chih Yu struct mtk_cqdma_pchan **pc;
146b1f01e48SShun-Chih Yu };
147b1f01e48SShun-Chih Yu
to_cqdma_dev(struct dma_chan * chan)148b1f01e48SShun-Chih Yu static struct mtk_cqdma_device *to_cqdma_dev(struct dma_chan *chan)
149b1f01e48SShun-Chih Yu {
150b1f01e48SShun-Chih Yu return container_of(chan->device, struct mtk_cqdma_device, ddev);
151b1f01e48SShun-Chih Yu }
152b1f01e48SShun-Chih Yu
to_cqdma_vchan(struct dma_chan * chan)153b1f01e48SShun-Chih Yu static struct mtk_cqdma_vchan *to_cqdma_vchan(struct dma_chan *chan)
154b1f01e48SShun-Chih Yu {
155b1f01e48SShun-Chih Yu return container_of(chan, struct mtk_cqdma_vchan, vc.chan);
156b1f01e48SShun-Chih Yu }
157b1f01e48SShun-Chih Yu
to_cqdma_vdesc(struct virt_dma_desc * vd)158b1f01e48SShun-Chih Yu static struct mtk_cqdma_vdesc *to_cqdma_vdesc(struct virt_dma_desc *vd)
159b1f01e48SShun-Chih Yu {
160b1f01e48SShun-Chih Yu return container_of(vd, struct mtk_cqdma_vdesc, vd);
161b1f01e48SShun-Chih Yu }
162b1f01e48SShun-Chih Yu
cqdma2dev(struct mtk_cqdma_device * cqdma)163b1f01e48SShun-Chih Yu static struct device *cqdma2dev(struct mtk_cqdma_device *cqdma)
164b1f01e48SShun-Chih Yu {
165b1f01e48SShun-Chih Yu return cqdma->ddev.dev;
166b1f01e48SShun-Chih Yu }
167b1f01e48SShun-Chih Yu
mtk_dma_read(struct mtk_cqdma_pchan * pc,u32 reg)168b1f01e48SShun-Chih Yu static u32 mtk_dma_read(struct mtk_cqdma_pchan *pc, u32 reg)
169b1f01e48SShun-Chih Yu {
170b1f01e48SShun-Chih Yu return readl(pc->base + reg);
171b1f01e48SShun-Chih Yu }
172b1f01e48SShun-Chih Yu
mtk_dma_write(struct mtk_cqdma_pchan * pc,u32 reg,u32 val)173b1f01e48SShun-Chih Yu static void mtk_dma_write(struct mtk_cqdma_pchan *pc, u32 reg, u32 val)
174b1f01e48SShun-Chih Yu {
175b1f01e48SShun-Chih Yu writel_relaxed(val, pc->base + reg);
176b1f01e48SShun-Chih Yu }
177b1f01e48SShun-Chih Yu
mtk_dma_rmw(struct mtk_cqdma_pchan * pc,u32 reg,u32 mask,u32 set)178b1f01e48SShun-Chih Yu static void mtk_dma_rmw(struct mtk_cqdma_pchan *pc, u32 reg,
179b1f01e48SShun-Chih Yu u32 mask, u32 set)
180b1f01e48SShun-Chih Yu {
181b1f01e48SShun-Chih Yu u32 val;
182b1f01e48SShun-Chih Yu
183b1f01e48SShun-Chih Yu val = mtk_dma_read(pc, reg);
184b1f01e48SShun-Chih Yu val &= ~mask;
185b1f01e48SShun-Chih Yu val |= set;
186b1f01e48SShun-Chih Yu mtk_dma_write(pc, reg, val);
187b1f01e48SShun-Chih Yu }
188b1f01e48SShun-Chih Yu
mtk_dma_set(struct mtk_cqdma_pchan * pc,u32 reg,u32 val)189b1f01e48SShun-Chih Yu static void mtk_dma_set(struct mtk_cqdma_pchan *pc, u32 reg, u32 val)
190b1f01e48SShun-Chih Yu {
191b1f01e48SShun-Chih Yu mtk_dma_rmw(pc, reg, 0, val);
192b1f01e48SShun-Chih Yu }
193b1f01e48SShun-Chih Yu
mtk_dma_clr(struct mtk_cqdma_pchan * pc,u32 reg,u32 val)194b1f01e48SShun-Chih Yu static void mtk_dma_clr(struct mtk_cqdma_pchan *pc, u32 reg, u32 val)
195b1f01e48SShun-Chih Yu {
196b1f01e48SShun-Chih Yu mtk_dma_rmw(pc, reg, val, 0);
197b1f01e48SShun-Chih Yu }
198b1f01e48SShun-Chih Yu
mtk_cqdma_vdesc_free(struct virt_dma_desc * vd)199b1f01e48SShun-Chih Yu static void mtk_cqdma_vdesc_free(struct virt_dma_desc *vd)
200b1f01e48SShun-Chih Yu {
201b1f01e48SShun-Chih Yu kfree(to_cqdma_vdesc(vd));
202b1f01e48SShun-Chih Yu }
203b1f01e48SShun-Chih Yu
mtk_cqdma_poll_engine_done(struct mtk_cqdma_pchan * pc,bool atomic)204b1f01e48SShun-Chih Yu static int mtk_cqdma_poll_engine_done(struct mtk_cqdma_pchan *pc, bool atomic)
205b1f01e48SShun-Chih Yu {
206b1f01e48SShun-Chih Yu u32 status = 0;
207b1f01e48SShun-Chih Yu
208b1f01e48SShun-Chih Yu if (!atomic)
209b1f01e48SShun-Chih Yu return readl_poll_timeout(pc->base + MTK_CQDMA_EN,
210b1f01e48SShun-Chih Yu status,
211b1f01e48SShun-Chih Yu !(status & MTK_CQDMA_EN_BIT),
212b1f01e48SShun-Chih Yu MTK_CQDMA_USEC_POLL,
213b1f01e48SShun-Chih Yu MTK_CQDMA_TIMEOUT_POLL);
214b1f01e48SShun-Chih Yu
215b1f01e48SShun-Chih Yu return readl_poll_timeout_atomic(pc->base + MTK_CQDMA_EN,
216b1f01e48SShun-Chih Yu status,
217b1f01e48SShun-Chih Yu !(status & MTK_CQDMA_EN_BIT),
218b1f01e48SShun-Chih Yu MTK_CQDMA_USEC_POLL,
219b1f01e48SShun-Chih Yu MTK_CQDMA_TIMEOUT_POLL);
220b1f01e48SShun-Chih Yu }
221b1f01e48SShun-Chih Yu
mtk_cqdma_hard_reset(struct mtk_cqdma_pchan * pc)222b1f01e48SShun-Chih Yu static int mtk_cqdma_hard_reset(struct mtk_cqdma_pchan *pc)
223b1f01e48SShun-Chih Yu {
224b1f01e48SShun-Chih Yu mtk_dma_set(pc, MTK_CQDMA_RESET, MTK_CQDMA_HARD_RST_BIT);
225b1f01e48SShun-Chih Yu mtk_dma_clr(pc, MTK_CQDMA_RESET, MTK_CQDMA_HARD_RST_BIT);
226b1f01e48SShun-Chih Yu
227069b3c42SDan Carpenter return mtk_cqdma_poll_engine_done(pc, true);
228b1f01e48SShun-Chih Yu }
229b1f01e48SShun-Chih Yu
mtk_cqdma_start(struct mtk_cqdma_pchan * pc,struct mtk_cqdma_vdesc * cvd)230b1f01e48SShun-Chih Yu static void mtk_cqdma_start(struct mtk_cqdma_pchan *pc,
231b1f01e48SShun-Chih Yu struct mtk_cqdma_vdesc *cvd)
232b1f01e48SShun-Chih Yu {
233b1f01e48SShun-Chih Yu /* wait for the previous transaction done */
234b1f01e48SShun-Chih Yu if (mtk_cqdma_poll_engine_done(pc, true) < 0)
235b1f01e48SShun-Chih Yu dev_err(cqdma2dev(to_cqdma_dev(cvd->ch)), "cqdma wait transaction timeout\n");
236b1f01e48SShun-Chih Yu
237b1f01e48SShun-Chih Yu /* warm reset the dma engine for the new transaction */
238b1f01e48SShun-Chih Yu mtk_dma_set(pc, MTK_CQDMA_RESET, MTK_CQDMA_WARM_RST_BIT);
239b1f01e48SShun-Chih Yu if (mtk_cqdma_poll_engine_done(pc, true) < 0)
240b1f01e48SShun-Chih Yu dev_err(cqdma2dev(to_cqdma_dev(cvd->ch)), "cqdma warm reset timeout\n");
241b1f01e48SShun-Chih Yu
242b1f01e48SShun-Chih Yu /* setup the source */
243b1f01e48SShun-Chih Yu mtk_dma_set(pc, MTK_CQDMA_SRC, cvd->src & MTK_CQDMA_ADDR_LIMIT);
244b1f01e48SShun-Chih Yu #ifdef CONFIG_ARCH_DMA_ADDR_T_64BIT
245b1f01e48SShun-Chih Yu mtk_dma_set(pc, MTK_CQDMA_SRC2, cvd->src >> MTK_CQDMA_ADDR2_SHFIT);
246b1f01e48SShun-Chih Yu #else
247b1f01e48SShun-Chih Yu mtk_dma_set(pc, MTK_CQDMA_SRC2, 0);
248b1f01e48SShun-Chih Yu #endif
249b1f01e48SShun-Chih Yu
250b1f01e48SShun-Chih Yu /* setup the destination */
251b1f01e48SShun-Chih Yu mtk_dma_set(pc, MTK_CQDMA_DST, cvd->dest & MTK_CQDMA_ADDR_LIMIT);
252b1f01e48SShun-Chih Yu #ifdef CONFIG_ARCH_DMA_ADDR_T_64BIT
253b1f01e48SShun-Chih Yu mtk_dma_set(pc, MTK_CQDMA_DST2, cvd->dest >> MTK_CQDMA_ADDR2_SHFIT);
254b1f01e48SShun-Chih Yu #else
2555bb5c3a3SShun-Chih Yu mtk_dma_set(pc, MTK_CQDMA_DST2, 0);
256b1f01e48SShun-Chih Yu #endif
257b1f01e48SShun-Chih Yu
258b1f01e48SShun-Chih Yu /* setup the length */
259b1f01e48SShun-Chih Yu mtk_dma_set(pc, MTK_CQDMA_LEN1, cvd->len);
260b1f01e48SShun-Chih Yu
261b1f01e48SShun-Chih Yu /* start dma engine */
262b1f01e48SShun-Chih Yu mtk_dma_set(pc, MTK_CQDMA_EN, MTK_CQDMA_EN_BIT);
263b1f01e48SShun-Chih Yu }
264b1f01e48SShun-Chih Yu
mtk_cqdma_issue_vchan_pending(struct mtk_cqdma_vchan * cvc)265b1f01e48SShun-Chih Yu static void mtk_cqdma_issue_vchan_pending(struct mtk_cqdma_vchan *cvc)
266b1f01e48SShun-Chih Yu {
267b1f01e48SShun-Chih Yu struct virt_dma_desc *vd, *vd2;
268b1f01e48SShun-Chih Yu struct mtk_cqdma_pchan *pc = cvc->pc;
269b1f01e48SShun-Chih Yu struct mtk_cqdma_vdesc *cvd;
270b1f01e48SShun-Chih Yu bool trigger_engine = false;
271b1f01e48SShun-Chih Yu
272b1f01e48SShun-Chih Yu lockdep_assert_held(&cvc->vc.lock);
273b1f01e48SShun-Chih Yu lockdep_assert_held(&pc->lock);
274b1f01e48SShun-Chih Yu
275b1f01e48SShun-Chih Yu list_for_each_entry_safe(vd, vd2, &cvc->vc.desc_issued, node) {
276b1f01e48SShun-Chih Yu /* need to trigger dma engine if PC's queue is empty */
277b1f01e48SShun-Chih Yu if (list_empty(&pc->queue))
278b1f01e48SShun-Chih Yu trigger_engine = true;
279b1f01e48SShun-Chih Yu
280b1f01e48SShun-Chih Yu cvd = to_cqdma_vdesc(vd);
281b1f01e48SShun-Chih Yu
282b1f01e48SShun-Chih Yu /* add VD into PC's queue */
283b1f01e48SShun-Chih Yu list_add_tail(&cvd->node, &pc->queue);
284b1f01e48SShun-Chih Yu
285b1f01e48SShun-Chih Yu /* start the dma engine */
286b1f01e48SShun-Chih Yu if (trigger_engine)
287b1f01e48SShun-Chih Yu mtk_cqdma_start(pc, cvd);
288b1f01e48SShun-Chih Yu
289b1f01e48SShun-Chih Yu /* remove VD from list desc_issued */
290b1f01e48SShun-Chih Yu list_del(&vd->node);
291b1f01e48SShun-Chih Yu }
292b1f01e48SShun-Chih Yu }
293b1f01e48SShun-Chih Yu
294b1f01e48SShun-Chih Yu /*
295b1f01e48SShun-Chih Yu * return true if this VC is active,
296b1f01e48SShun-Chih Yu * meaning that there are VDs under processing by the PC
297b1f01e48SShun-Chih Yu */
mtk_cqdma_is_vchan_active(struct mtk_cqdma_vchan * cvc)298b1f01e48SShun-Chih Yu static bool mtk_cqdma_is_vchan_active(struct mtk_cqdma_vchan *cvc)
299b1f01e48SShun-Chih Yu {
300b1f01e48SShun-Chih Yu struct mtk_cqdma_vdesc *cvd;
301b1f01e48SShun-Chih Yu
302b1f01e48SShun-Chih Yu list_for_each_entry(cvd, &cvc->pc->queue, node)
303b1f01e48SShun-Chih Yu if (cvc == to_cqdma_vchan(cvd->ch))
304b1f01e48SShun-Chih Yu return true;
305b1f01e48SShun-Chih Yu
306b1f01e48SShun-Chih Yu return false;
307b1f01e48SShun-Chih Yu }
308b1f01e48SShun-Chih Yu
309b1f01e48SShun-Chih Yu /*
310b1f01e48SShun-Chih Yu * return the pointer of the CVD that is just consumed by the PC
311b1f01e48SShun-Chih Yu */
312b1f01e48SShun-Chih Yu static struct mtk_cqdma_vdesc
mtk_cqdma_consume_work_queue(struct mtk_cqdma_pchan * pc)313b1f01e48SShun-Chih Yu *mtk_cqdma_consume_work_queue(struct mtk_cqdma_pchan *pc)
314b1f01e48SShun-Chih Yu {
315b1f01e48SShun-Chih Yu struct mtk_cqdma_vchan *cvc;
316b1f01e48SShun-Chih Yu struct mtk_cqdma_vdesc *cvd, *ret = NULL;
317b1f01e48SShun-Chih Yu
318b1f01e48SShun-Chih Yu /* consume a CVD from PC's queue */
319b1f01e48SShun-Chih Yu cvd = list_first_entry_or_null(&pc->queue,
320b1f01e48SShun-Chih Yu struct mtk_cqdma_vdesc, node);
321b1f01e48SShun-Chih Yu if (unlikely(!cvd || !cvd->parent))
322b1f01e48SShun-Chih Yu return NULL;
323b1f01e48SShun-Chih Yu
324b1f01e48SShun-Chih Yu cvc = to_cqdma_vchan(cvd->ch);
325b1f01e48SShun-Chih Yu ret = cvd;
326b1f01e48SShun-Chih Yu
327b1f01e48SShun-Chih Yu /* update residue of the parent CVD */
328b1f01e48SShun-Chih Yu cvd->parent->residue -= cvd->len;
329b1f01e48SShun-Chih Yu
330b1f01e48SShun-Chih Yu /* delete CVD from PC's queue */
331b1f01e48SShun-Chih Yu list_del(&cvd->node);
332b1f01e48SShun-Chih Yu
333b1f01e48SShun-Chih Yu spin_lock(&cvc->vc.lock);
334b1f01e48SShun-Chih Yu
335b1f01e48SShun-Chih Yu /* check whether all the child CVDs completed */
336b1f01e48SShun-Chih Yu if (!cvd->parent->residue) {
337b1f01e48SShun-Chih Yu /* add the parent VD into list desc_completed */
338b1f01e48SShun-Chih Yu vchan_cookie_complete(&cvd->parent->vd);
339b1f01e48SShun-Chih Yu
340b1f01e48SShun-Chih Yu /* setup completion if this VC is under synchronization */
341b1f01e48SShun-Chih Yu if (cvc->issue_synchronize && !mtk_cqdma_is_vchan_active(cvc)) {
342b1f01e48SShun-Chih Yu complete(&cvc->issue_completion);
343b1f01e48SShun-Chih Yu cvc->issue_synchronize = false;
344b1f01e48SShun-Chih Yu }
345b1f01e48SShun-Chih Yu }
346b1f01e48SShun-Chih Yu
347b1f01e48SShun-Chih Yu spin_unlock(&cvc->vc.lock);
348b1f01e48SShun-Chih Yu
349b1f01e48SShun-Chih Yu /* start transaction for next CVD in the queue */
350b1f01e48SShun-Chih Yu cvd = list_first_entry_or_null(&pc->queue,
351b1f01e48SShun-Chih Yu struct mtk_cqdma_vdesc, node);
352b1f01e48SShun-Chih Yu if (cvd)
353b1f01e48SShun-Chih Yu mtk_cqdma_start(pc, cvd);
354b1f01e48SShun-Chih Yu
355b1f01e48SShun-Chih Yu return ret;
356b1f01e48SShun-Chih Yu }
357b1f01e48SShun-Chih Yu
mtk_cqdma_tasklet_cb(struct tasklet_struct * t)35880ef8869SAllen Pais static void mtk_cqdma_tasklet_cb(struct tasklet_struct *t)
359b1f01e48SShun-Chih Yu {
36080ef8869SAllen Pais struct mtk_cqdma_pchan *pc = from_tasklet(pc, t, tasklet);
361b1f01e48SShun-Chih Yu struct mtk_cqdma_vdesc *cvd = NULL;
362b1f01e48SShun-Chih Yu unsigned long flags;
363b1f01e48SShun-Chih Yu
364b1f01e48SShun-Chih Yu spin_lock_irqsave(&pc->lock, flags);
365b1f01e48SShun-Chih Yu /* consume the queue */
366b1f01e48SShun-Chih Yu cvd = mtk_cqdma_consume_work_queue(pc);
367b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&pc->lock, flags);
368b1f01e48SShun-Chih Yu
369b1f01e48SShun-Chih Yu /* submit the next CVD */
370b1f01e48SShun-Chih Yu if (cvd) {
371b1f01e48SShun-Chih Yu dma_run_dependencies(&cvd->vd.tx);
372b1f01e48SShun-Chih Yu
373b1f01e48SShun-Chih Yu /*
374b1f01e48SShun-Chih Yu * free child CVD after completion.
375*fd39ae75SJulia Lawall * the parent CVD would be freed with desc_free by user.
376b1f01e48SShun-Chih Yu */
377b1f01e48SShun-Chih Yu if (cvd->parent != cvd)
378b1f01e48SShun-Chih Yu kfree(cvd);
379b1f01e48SShun-Chih Yu }
380b1f01e48SShun-Chih Yu
381b1f01e48SShun-Chih Yu /* re-enable interrupt before leaving tasklet */
382b1f01e48SShun-Chih Yu enable_irq(pc->irq);
383b1f01e48SShun-Chih Yu }
384b1f01e48SShun-Chih Yu
mtk_cqdma_irq(int irq,void * devid)385b1f01e48SShun-Chih Yu static irqreturn_t mtk_cqdma_irq(int irq, void *devid)
386b1f01e48SShun-Chih Yu {
387b1f01e48SShun-Chih Yu struct mtk_cqdma_device *cqdma = devid;
388b1f01e48SShun-Chih Yu irqreturn_t ret = IRQ_NONE;
389b1f01e48SShun-Chih Yu bool schedule_tasklet = false;
390b1f01e48SShun-Chih Yu u32 i;
391b1f01e48SShun-Chih Yu
392b1f01e48SShun-Chih Yu /* clear interrupt flags for each PC */
393b1f01e48SShun-Chih Yu for (i = 0; i < cqdma->dma_channels; ++i, schedule_tasklet = false) {
394b1f01e48SShun-Chih Yu spin_lock(&cqdma->pc[i]->lock);
395b1f01e48SShun-Chih Yu if (mtk_dma_read(cqdma->pc[i],
396b1f01e48SShun-Chih Yu MTK_CQDMA_INT_FLAG) & MTK_CQDMA_INT_FLAG_BIT) {
397b1f01e48SShun-Chih Yu /* clear interrupt */
398b1f01e48SShun-Chih Yu mtk_dma_clr(cqdma->pc[i], MTK_CQDMA_INT_FLAG,
399b1f01e48SShun-Chih Yu MTK_CQDMA_INT_FLAG_BIT);
400b1f01e48SShun-Chih Yu
401b1f01e48SShun-Chih Yu schedule_tasklet = true;
402b1f01e48SShun-Chih Yu ret = IRQ_HANDLED;
403b1f01e48SShun-Chih Yu }
404b1f01e48SShun-Chih Yu spin_unlock(&cqdma->pc[i]->lock);
405b1f01e48SShun-Chih Yu
406b1f01e48SShun-Chih Yu if (schedule_tasklet) {
407b1f01e48SShun-Chih Yu /* disable interrupt */
408b1f01e48SShun-Chih Yu disable_irq_nosync(cqdma->pc[i]->irq);
409b1f01e48SShun-Chih Yu
410b1f01e48SShun-Chih Yu /* schedule the tasklet to handle the transactions */
411b1f01e48SShun-Chih Yu tasklet_schedule(&cqdma->pc[i]->tasklet);
412b1f01e48SShun-Chih Yu }
413b1f01e48SShun-Chih Yu }
414b1f01e48SShun-Chih Yu
415b1f01e48SShun-Chih Yu return ret;
416b1f01e48SShun-Chih Yu }
417b1f01e48SShun-Chih Yu
mtk_cqdma_find_active_desc(struct dma_chan * c,dma_cookie_t cookie)418b1f01e48SShun-Chih Yu static struct virt_dma_desc *mtk_cqdma_find_active_desc(struct dma_chan *c,
419b1f01e48SShun-Chih Yu dma_cookie_t cookie)
420b1f01e48SShun-Chih Yu {
421b1f01e48SShun-Chih Yu struct mtk_cqdma_vchan *cvc = to_cqdma_vchan(c);
422b1f01e48SShun-Chih Yu struct virt_dma_desc *vd;
423b1f01e48SShun-Chih Yu unsigned long flags;
424b1f01e48SShun-Chih Yu
425b1f01e48SShun-Chih Yu spin_lock_irqsave(&cvc->pc->lock, flags);
426b1f01e48SShun-Chih Yu list_for_each_entry(vd, &cvc->pc->queue, node)
427b1f01e48SShun-Chih Yu if (vd->tx.cookie == cookie) {
428b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&cvc->pc->lock, flags);
429b1f01e48SShun-Chih Yu return vd;
430b1f01e48SShun-Chih Yu }
431b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&cvc->pc->lock, flags);
432b1f01e48SShun-Chih Yu
433b1f01e48SShun-Chih Yu list_for_each_entry(vd, &cvc->vc.desc_issued, node)
434b1f01e48SShun-Chih Yu if (vd->tx.cookie == cookie)
435b1f01e48SShun-Chih Yu return vd;
436b1f01e48SShun-Chih Yu
437b1f01e48SShun-Chih Yu return NULL;
438b1f01e48SShun-Chih Yu }
439b1f01e48SShun-Chih Yu
mtk_cqdma_tx_status(struct dma_chan * c,dma_cookie_t cookie,struct dma_tx_state * txstate)440b1f01e48SShun-Chih Yu static enum dma_status mtk_cqdma_tx_status(struct dma_chan *c,
441b1f01e48SShun-Chih Yu dma_cookie_t cookie,
442b1f01e48SShun-Chih Yu struct dma_tx_state *txstate)
443b1f01e48SShun-Chih Yu {
444b1f01e48SShun-Chih Yu struct mtk_cqdma_vchan *cvc = to_cqdma_vchan(c);
445b1f01e48SShun-Chih Yu struct mtk_cqdma_vdesc *cvd;
446b1f01e48SShun-Chih Yu struct virt_dma_desc *vd;
447b1f01e48SShun-Chih Yu enum dma_status ret;
448b1f01e48SShun-Chih Yu unsigned long flags;
449b1f01e48SShun-Chih Yu size_t bytes = 0;
450b1f01e48SShun-Chih Yu
451b1f01e48SShun-Chih Yu ret = dma_cookie_status(c, cookie, txstate);
452b1f01e48SShun-Chih Yu if (ret == DMA_COMPLETE || !txstate)
453b1f01e48SShun-Chih Yu return ret;
454b1f01e48SShun-Chih Yu
455b1f01e48SShun-Chih Yu spin_lock_irqsave(&cvc->vc.lock, flags);
456b1f01e48SShun-Chih Yu vd = mtk_cqdma_find_active_desc(c, cookie);
457b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&cvc->vc.lock, flags);
458b1f01e48SShun-Chih Yu
459b1f01e48SShun-Chih Yu if (vd) {
460b1f01e48SShun-Chih Yu cvd = to_cqdma_vdesc(vd);
461b1f01e48SShun-Chih Yu bytes = cvd->residue;
462b1f01e48SShun-Chih Yu }
463b1f01e48SShun-Chih Yu
464b1f01e48SShun-Chih Yu dma_set_residue(txstate, bytes);
465b1f01e48SShun-Chih Yu
466b1f01e48SShun-Chih Yu return ret;
467b1f01e48SShun-Chih Yu }
468b1f01e48SShun-Chih Yu
mtk_cqdma_issue_pending(struct dma_chan * c)469b1f01e48SShun-Chih Yu static void mtk_cqdma_issue_pending(struct dma_chan *c)
470b1f01e48SShun-Chih Yu {
471b1f01e48SShun-Chih Yu struct mtk_cqdma_vchan *cvc = to_cqdma_vchan(c);
472b1f01e48SShun-Chih Yu unsigned long pc_flags;
473b1f01e48SShun-Chih Yu unsigned long vc_flags;
474b1f01e48SShun-Chih Yu
475b1f01e48SShun-Chih Yu /* acquire PC's lock before VS's lock for lock dependency in tasklet */
476b1f01e48SShun-Chih Yu spin_lock_irqsave(&cvc->pc->lock, pc_flags);
477b1f01e48SShun-Chih Yu spin_lock_irqsave(&cvc->vc.lock, vc_flags);
478b1f01e48SShun-Chih Yu
479b1f01e48SShun-Chih Yu if (vchan_issue_pending(&cvc->vc))
480b1f01e48SShun-Chih Yu mtk_cqdma_issue_vchan_pending(cvc);
481b1f01e48SShun-Chih Yu
482b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&cvc->vc.lock, vc_flags);
483b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&cvc->pc->lock, pc_flags);
484b1f01e48SShun-Chih Yu }
485b1f01e48SShun-Chih Yu
486b1f01e48SShun-Chih Yu static struct dma_async_tx_descriptor *
mtk_cqdma_prep_dma_memcpy(struct dma_chan * c,dma_addr_t dest,dma_addr_t src,size_t len,unsigned long flags)487b1f01e48SShun-Chih Yu mtk_cqdma_prep_dma_memcpy(struct dma_chan *c, dma_addr_t dest,
488b1f01e48SShun-Chih Yu dma_addr_t src, size_t len, unsigned long flags)
489b1f01e48SShun-Chih Yu {
490b1f01e48SShun-Chih Yu struct mtk_cqdma_vdesc **cvd;
491b1f01e48SShun-Chih Yu struct dma_async_tx_descriptor *tx = NULL, *prev_tx = NULL;
492b1f01e48SShun-Chih Yu size_t i, tlen, nr_vd;
493b1f01e48SShun-Chih Yu
494b1f01e48SShun-Chih Yu /*
495b1f01e48SShun-Chih Yu * In the case that trsanction length is larger than the
496b1f01e48SShun-Chih Yu * DMA engine supports, a single memcpy transaction needs
497b1f01e48SShun-Chih Yu * to be separated into several DMA transactions.
498b1f01e48SShun-Chih Yu * Each DMA transaction would be described by a CVD,
499b1f01e48SShun-Chih Yu * and the first one is referred as the parent CVD,
500b1f01e48SShun-Chih Yu * while the others are child CVDs.
501b1f01e48SShun-Chih Yu * The parent CVD's tx descriptor is the only tx descriptor
502b1f01e48SShun-Chih Yu * returned to the DMA user, and it should not be completed
503b1f01e48SShun-Chih Yu * until all the child CVDs completed.
504b1f01e48SShun-Chih Yu */
505b1f01e48SShun-Chih Yu nr_vd = DIV_ROUND_UP(len, MTK_CQDMA_MAX_LEN);
506b1f01e48SShun-Chih Yu cvd = kcalloc(nr_vd, sizeof(*cvd), GFP_NOWAIT);
507b1f01e48SShun-Chih Yu if (!cvd)
508b1f01e48SShun-Chih Yu return NULL;
509b1f01e48SShun-Chih Yu
510b1f01e48SShun-Chih Yu for (i = 0; i < nr_vd; ++i) {
511b1f01e48SShun-Chih Yu cvd[i] = kzalloc(sizeof(*cvd[i]), GFP_NOWAIT);
512b1f01e48SShun-Chih Yu if (!cvd[i]) {
513b1f01e48SShun-Chih Yu for (; i > 0; --i)
514b1f01e48SShun-Chih Yu kfree(cvd[i - 1]);
515b1f01e48SShun-Chih Yu return NULL;
516b1f01e48SShun-Chih Yu }
517b1f01e48SShun-Chih Yu
518b1f01e48SShun-Chih Yu /* setup dma channel */
519b1f01e48SShun-Chih Yu cvd[i]->ch = c;
520b1f01e48SShun-Chih Yu
521b1f01e48SShun-Chih Yu /* setup sourece, destination, and length */
522b1f01e48SShun-Chih Yu tlen = (len > MTK_CQDMA_MAX_LEN) ? MTK_CQDMA_MAX_LEN : len;
523b1f01e48SShun-Chih Yu cvd[i]->len = tlen;
524b1f01e48SShun-Chih Yu cvd[i]->src = src;
525b1f01e48SShun-Chih Yu cvd[i]->dest = dest;
526b1f01e48SShun-Chih Yu
527b1f01e48SShun-Chih Yu /* setup tx descriptor */
528b1f01e48SShun-Chih Yu tx = vchan_tx_prep(to_virt_chan(c), &cvd[i]->vd, flags);
529b1f01e48SShun-Chih Yu tx->next = NULL;
530b1f01e48SShun-Chih Yu
531b1f01e48SShun-Chih Yu if (!i) {
532b1f01e48SShun-Chih Yu cvd[0]->residue = len;
533b1f01e48SShun-Chih Yu } else {
534b1f01e48SShun-Chih Yu prev_tx->next = tx;
535b1f01e48SShun-Chih Yu cvd[i]->residue = tlen;
536b1f01e48SShun-Chih Yu }
537b1f01e48SShun-Chih Yu
538b1f01e48SShun-Chih Yu cvd[i]->parent = cvd[0];
539b1f01e48SShun-Chih Yu
540b1f01e48SShun-Chih Yu /* update the src, dest, len, prev_tx for the next CVD */
541b1f01e48SShun-Chih Yu src += tlen;
542b1f01e48SShun-Chih Yu dest += tlen;
543b1f01e48SShun-Chih Yu len -= tlen;
544b1f01e48SShun-Chih Yu prev_tx = tx;
545b1f01e48SShun-Chih Yu }
546b1f01e48SShun-Chih Yu
547b1f01e48SShun-Chih Yu return &cvd[0]->vd.tx;
548b1f01e48SShun-Chih Yu }
549b1f01e48SShun-Chih Yu
mtk_cqdma_free_inactive_desc(struct dma_chan * c)550b1f01e48SShun-Chih Yu static void mtk_cqdma_free_inactive_desc(struct dma_chan *c)
551b1f01e48SShun-Chih Yu {
552b1f01e48SShun-Chih Yu struct virt_dma_chan *vc = to_virt_chan(c);
553b1f01e48SShun-Chih Yu unsigned long flags;
554b1f01e48SShun-Chih Yu LIST_HEAD(head);
555b1f01e48SShun-Chih Yu
556b1f01e48SShun-Chih Yu /*
557b1f01e48SShun-Chih Yu * set desc_allocated, desc_submitted,
558b1f01e48SShun-Chih Yu * and desc_issued as the candicates to be freed
559b1f01e48SShun-Chih Yu */
560b1f01e48SShun-Chih Yu spin_lock_irqsave(&vc->lock, flags);
561b1f01e48SShun-Chih Yu list_splice_tail_init(&vc->desc_allocated, &head);
562b1f01e48SShun-Chih Yu list_splice_tail_init(&vc->desc_submitted, &head);
563b1f01e48SShun-Chih Yu list_splice_tail_init(&vc->desc_issued, &head);
564b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&vc->lock, flags);
565b1f01e48SShun-Chih Yu
566b1f01e48SShun-Chih Yu /* free descriptor lists */
567b1f01e48SShun-Chih Yu vchan_dma_desc_free_list(vc, &head);
568b1f01e48SShun-Chih Yu }
569b1f01e48SShun-Chih Yu
mtk_cqdma_free_active_desc(struct dma_chan * c)570b1f01e48SShun-Chih Yu static void mtk_cqdma_free_active_desc(struct dma_chan *c)
571b1f01e48SShun-Chih Yu {
572b1f01e48SShun-Chih Yu struct mtk_cqdma_vchan *cvc = to_cqdma_vchan(c);
573b1f01e48SShun-Chih Yu bool sync_needed = false;
574b1f01e48SShun-Chih Yu unsigned long pc_flags;
575b1f01e48SShun-Chih Yu unsigned long vc_flags;
576b1f01e48SShun-Chih Yu
577b1f01e48SShun-Chih Yu /* acquire PC's lock first due to lock dependency in dma ISR */
578b1f01e48SShun-Chih Yu spin_lock_irqsave(&cvc->pc->lock, pc_flags);
579b1f01e48SShun-Chih Yu spin_lock_irqsave(&cvc->vc.lock, vc_flags);
580b1f01e48SShun-Chih Yu
581b1f01e48SShun-Chih Yu /* synchronization is required if this VC is active */
582b1f01e48SShun-Chih Yu if (mtk_cqdma_is_vchan_active(cvc)) {
583b1f01e48SShun-Chih Yu cvc->issue_synchronize = true;
584b1f01e48SShun-Chih Yu sync_needed = true;
585b1f01e48SShun-Chih Yu }
586b1f01e48SShun-Chih Yu
587b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&cvc->vc.lock, vc_flags);
588b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&cvc->pc->lock, pc_flags);
589b1f01e48SShun-Chih Yu
590b1f01e48SShun-Chih Yu /* waiting for the completion of this VC */
591b1f01e48SShun-Chih Yu if (sync_needed)
592b1f01e48SShun-Chih Yu wait_for_completion(&cvc->issue_completion);
593b1f01e48SShun-Chih Yu
594b1f01e48SShun-Chih Yu /* free all descriptors in list desc_completed */
595b1f01e48SShun-Chih Yu vchan_synchronize(&cvc->vc);
596b1f01e48SShun-Chih Yu
597b1f01e48SShun-Chih Yu WARN_ONCE(!list_empty(&cvc->vc.desc_completed),
598b1f01e48SShun-Chih Yu "Desc pending still in list desc_completed\n");
599b1f01e48SShun-Chih Yu }
600b1f01e48SShun-Chih Yu
mtk_cqdma_terminate_all(struct dma_chan * c)601b1f01e48SShun-Chih Yu static int mtk_cqdma_terminate_all(struct dma_chan *c)
602b1f01e48SShun-Chih Yu {
603b1f01e48SShun-Chih Yu /* free descriptors not processed yet by hardware */
604b1f01e48SShun-Chih Yu mtk_cqdma_free_inactive_desc(c);
605b1f01e48SShun-Chih Yu
606b1f01e48SShun-Chih Yu /* free descriptors being processed by hardware */
607b1f01e48SShun-Chih Yu mtk_cqdma_free_active_desc(c);
608b1f01e48SShun-Chih Yu
609b1f01e48SShun-Chih Yu return 0;
610b1f01e48SShun-Chih Yu }
611b1f01e48SShun-Chih Yu
mtk_cqdma_alloc_chan_resources(struct dma_chan * c)612b1f01e48SShun-Chih Yu static int mtk_cqdma_alloc_chan_resources(struct dma_chan *c)
613b1f01e48SShun-Chih Yu {
614b1f01e48SShun-Chih Yu struct mtk_cqdma_device *cqdma = to_cqdma_dev(c);
615b1f01e48SShun-Chih Yu struct mtk_cqdma_vchan *vc = to_cqdma_vchan(c);
616b1f01e48SShun-Chih Yu struct mtk_cqdma_pchan *pc = NULL;
617b1f01e48SShun-Chih Yu u32 i, min_refcnt = U32_MAX, refcnt;
618b1f01e48SShun-Chih Yu unsigned long flags;
619b1f01e48SShun-Chih Yu
620b1f01e48SShun-Chih Yu /* allocate PC with the minimun refcount */
621b1f01e48SShun-Chih Yu for (i = 0; i < cqdma->dma_channels; ++i) {
622b1f01e48SShun-Chih Yu refcnt = refcount_read(&cqdma->pc[i]->refcnt);
623b1f01e48SShun-Chih Yu if (refcnt < min_refcnt) {
624b1f01e48SShun-Chih Yu pc = cqdma->pc[i];
625b1f01e48SShun-Chih Yu min_refcnt = refcnt;
626b1f01e48SShun-Chih Yu }
627b1f01e48SShun-Chih Yu }
628b1f01e48SShun-Chih Yu
629b1f01e48SShun-Chih Yu if (!pc)
630b1f01e48SShun-Chih Yu return -ENOSPC;
631b1f01e48SShun-Chih Yu
632b1f01e48SShun-Chih Yu spin_lock_irqsave(&pc->lock, flags);
633b1f01e48SShun-Chih Yu
634b1f01e48SShun-Chih Yu if (!refcount_read(&pc->refcnt)) {
635b1f01e48SShun-Chih Yu /* allocate PC when the refcount is zero */
636b1f01e48SShun-Chih Yu mtk_cqdma_hard_reset(pc);
637b1f01e48SShun-Chih Yu
638b1f01e48SShun-Chih Yu /* enable interrupt for this PC */
639b1f01e48SShun-Chih Yu mtk_dma_set(pc, MTK_CQDMA_INT_EN, MTK_CQDMA_INT_EN_BIT);
640b1f01e48SShun-Chih Yu
641b1f01e48SShun-Chih Yu /*
642b1f01e48SShun-Chih Yu * refcount_inc would complain increment on 0; use-after-free.
643b1f01e48SShun-Chih Yu * Thus, we need to explicitly set it as 1 initially.
644b1f01e48SShun-Chih Yu */
645b1f01e48SShun-Chih Yu refcount_set(&pc->refcnt, 1);
646b1f01e48SShun-Chih Yu } else {
647b1f01e48SShun-Chih Yu refcount_inc(&pc->refcnt);
648b1f01e48SShun-Chih Yu }
649b1f01e48SShun-Chih Yu
650b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&pc->lock, flags);
651b1f01e48SShun-Chih Yu
652b1f01e48SShun-Chih Yu vc->pc = pc;
653b1f01e48SShun-Chih Yu
654b1f01e48SShun-Chih Yu return 0;
655b1f01e48SShun-Chih Yu }
656b1f01e48SShun-Chih Yu
mtk_cqdma_free_chan_resources(struct dma_chan * c)657b1f01e48SShun-Chih Yu static void mtk_cqdma_free_chan_resources(struct dma_chan *c)
658b1f01e48SShun-Chih Yu {
659b1f01e48SShun-Chih Yu struct mtk_cqdma_vchan *cvc = to_cqdma_vchan(c);
660b1f01e48SShun-Chih Yu unsigned long flags;
661b1f01e48SShun-Chih Yu
662b1f01e48SShun-Chih Yu /* free all descriptors in all lists on the VC */
663b1f01e48SShun-Chih Yu mtk_cqdma_terminate_all(c);
664b1f01e48SShun-Chih Yu
665b1f01e48SShun-Chih Yu spin_lock_irqsave(&cvc->pc->lock, flags);
666b1f01e48SShun-Chih Yu
667b1f01e48SShun-Chih Yu /* PC is not freed until there is no VC mapped to it */
668b1f01e48SShun-Chih Yu if (refcount_dec_and_test(&cvc->pc->refcnt)) {
669b1f01e48SShun-Chih Yu /* start the flush operation and stop the engine */
670b1f01e48SShun-Chih Yu mtk_dma_set(cvc->pc, MTK_CQDMA_FLUSH, MTK_CQDMA_FLUSH_BIT);
671b1f01e48SShun-Chih Yu
672b1f01e48SShun-Chih Yu /* wait for the completion of flush operation */
673069b3c42SDan Carpenter if (mtk_cqdma_poll_engine_done(cvc->pc, true) < 0)
674b1f01e48SShun-Chih Yu dev_err(cqdma2dev(to_cqdma_dev(c)), "cqdma flush timeout\n");
675b1f01e48SShun-Chih Yu
676b1f01e48SShun-Chih Yu /* clear the flush bit and interrupt flag */
677b1f01e48SShun-Chih Yu mtk_dma_clr(cvc->pc, MTK_CQDMA_FLUSH, MTK_CQDMA_FLUSH_BIT);
678b1f01e48SShun-Chih Yu mtk_dma_clr(cvc->pc, MTK_CQDMA_INT_FLAG,
679b1f01e48SShun-Chih Yu MTK_CQDMA_INT_FLAG_BIT);
680b1f01e48SShun-Chih Yu
681b1f01e48SShun-Chih Yu /* disable interrupt for this PC */
682b1f01e48SShun-Chih Yu mtk_dma_clr(cvc->pc, MTK_CQDMA_INT_EN, MTK_CQDMA_INT_EN_BIT);
683b1f01e48SShun-Chih Yu }
684b1f01e48SShun-Chih Yu
685b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&cvc->pc->lock, flags);
686b1f01e48SShun-Chih Yu }
687b1f01e48SShun-Chih Yu
mtk_cqdma_hw_init(struct mtk_cqdma_device * cqdma)688b1f01e48SShun-Chih Yu static int mtk_cqdma_hw_init(struct mtk_cqdma_device *cqdma)
689b1f01e48SShun-Chih Yu {
690b1f01e48SShun-Chih Yu unsigned long flags;
691b1f01e48SShun-Chih Yu int err;
692b1f01e48SShun-Chih Yu u32 i;
693b1f01e48SShun-Chih Yu
694b1f01e48SShun-Chih Yu pm_runtime_enable(cqdma2dev(cqdma));
695b1f01e48SShun-Chih Yu pm_runtime_get_sync(cqdma2dev(cqdma));
696b1f01e48SShun-Chih Yu
697b1f01e48SShun-Chih Yu err = clk_prepare_enable(cqdma->clk);
698b1f01e48SShun-Chih Yu
699b1f01e48SShun-Chih Yu if (err) {
700b1f01e48SShun-Chih Yu pm_runtime_put_sync(cqdma2dev(cqdma));
701b1f01e48SShun-Chih Yu pm_runtime_disable(cqdma2dev(cqdma));
702b1f01e48SShun-Chih Yu return err;
703b1f01e48SShun-Chih Yu }
704b1f01e48SShun-Chih Yu
705b1f01e48SShun-Chih Yu /* reset all PCs */
706b1f01e48SShun-Chih Yu for (i = 0; i < cqdma->dma_channels; ++i) {
707b1f01e48SShun-Chih Yu spin_lock_irqsave(&cqdma->pc[i]->lock, flags);
708b1f01e48SShun-Chih Yu if (mtk_cqdma_hard_reset(cqdma->pc[i]) < 0) {
709b1f01e48SShun-Chih Yu dev_err(cqdma2dev(cqdma), "cqdma hard reset timeout\n");
710b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&cqdma->pc[i]->lock, flags);
711b1f01e48SShun-Chih Yu
712b1f01e48SShun-Chih Yu clk_disable_unprepare(cqdma->clk);
713b1f01e48SShun-Chih Yu pm_runtime_put_sync(cqdma2dev(cqdma));
714b1f01e48SShun-Chih Yu pm_runtime_disable(cqdma2dev(cqdma));
715b1f01e48SShun-Chih Yu return -EINVAL;
716b1f01e48SShun-Chih Yu }
717b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&cqdma->pc[i]->lock, flags);
718b1f01e48SShun-Chih Yu }
719b1f01e48SShun-Chih Yu
720b1f01e48SShun-Chih Yu return 0;
721b1f01e48SShun-Chih Yu }
722b1f01e48SShun-Chih Yu
mtk_cqdma_hw_deinit(struct mtk_cqdma_device * cqdma)723b1f01e48SShun-Chih Yu static void mtk_cqdma_hw_deinit(struct mtk_cqdma_device *cqdma)
724b1f01e48SShun-Chih Yu {
725b1f01e48SShun-Chih Yu unsigned long flags;
726b1f01e48SShun-Chih Yu u32 i;
727b1f01e48SShun-Chih Yu
728b1f01e48SShun-Chih Yu /* reset all PCs */
729b1f01e48SShun-Chih Yu for (i = 0; i < cqdma->dma_channels; ++i) {
730b1f01e48SShun-Chih Yu spin_lock_irqsave(&cqdma->pc[i]->lock, flags);
731b1f01e48SShun-Chih Yu if (mtk_cqdma_hard_reset(cqdma->pc[i]) < 0)
732b1f01e48SShun-Chih Yu dev_err(cqdma2dev(cqdma), "cqdma hard reset timeout\n");
733b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&cqdma->pc[i]->lock, flags);
734b1f01e48SShun-Chih Yu }
735b1f01e48SShun-Chih Yu
736b1f01e48SShun-Chih Yu clk_disable_unprepare(cqdma->clk);
737b1f01e48SShun-Chih Yu
738b1f01e48SShun-Chih Yu pm_runtime_put_sync(cqdma2dev(cqdma));
739b1f01e48SShun-Chih Yu pm_runtime_disable(cqdma2dev(cqdma));
740b1f01e48SShun-Chih Yu }
741b1f01e48SShun-Chih Yu
742b1f01e48SShun-Chih Yu static const struct of_device_id mtk_cqdma_match[] = {
743b1f01e48SShun-Chih Yu { .compatible = "mediatek,mt6765-cqdma" },
744b1f01e48SShun-Chih Yu { /* sentinel */ }
745b1f01e48SShun-Chih Yu };
746b1f01e48SShun-Chih Yu MODULE_DEVICE_TABLE(of, mtk_cqdma_match);
747b1f01e48SShun-Chih Yu
mtk_cqdma_probe(struct platform_device * pdev)748b1f01e48SShun-Chih Yu static int mtk_cqdma_probe(struct platform_device *pdev)
749b1f01e48SShun-Chih Yu {
750b1f01e48SShun-Chih Yu struct mtk_cqdma_device *cqdma;
751b1f01e48SShun-Chih Yu struct mtk_cqdma_vchan *vc;
752b1f01e48SShun-Chih Yu struct dma_device *dd;
753b1f01e48SShun-Chih Yu int err;
754b1f01e48SShun-Chih Yu u32 i;
755b1f01e48SShun-Chih Yu
756b1f01e48SShun-Chih Yu cqdma = devm_kzalloc(&pdev->dev, sizeof(*cqdma), GFP_KERNEL);
757b1f01e48SShun-Chih Yu if (!cqdma)
758b1f01e48SShun-Chih Yu return -ENOMEM;
759b1f01e48SShun-Chih Yu
760b1f01e48SShun-Chih Yu dd = &cqdma->ddev;
761b1f01e48SShun-Chih Yu
762b1f01e48SShun-Chih Yu cqdma->clk = devm_clk_get(&pdev->dev, "cqdma");
763b1f01e48SShun-Chih Yu if (IS_ERR(cqdma->clk)) {
764b1f01e48SShun-Chih Yu dev_err(&pdev->dev, "No clock for %s\n",
765b1f01e48SShun-Chih Yu dev_name(&pdev->dev));
766b1f01e48SShun-Chih Yu return PTR_ERR(cqdma->clk);
767b1f01e48SShun-Chih Yu }
768b1f01e48SShun-Chih Yu
769b1f01e48SShun-Chih Yu dma_cap_set(DMA_MEMCPY, dd->cap_mask);
770b1f01e48SShun-Chih Yu
771b1f01e48SShun-Chih Yu dd->copy_align = MTK_CQDMA_ALIGN_SIZE;
772b1f01e48SShun-Chih Yu dd->device_alloc_chan_resources = mtk_cqdma_alloc_chan_resources;
773b1f01e48SShun-Chih Yu dd->device_free_chan_resources = mtk_cqdma_free_chan_resources;
774b1f01e48SShun-Chih Yu dd->device_tx_status = mtk_cqdma_tx_status;
775b1f01e48SShun-Chih Yu dd->device_issue_pending = mtk_cqdma_issue_pending;
776b1f01e48SShun-Chih Yu dd->device_prep_dma_memcpy = mtk_cqdma_prep_dma_memcpy;
777b1f01e48SShun-Chih Yu dd->device_terminate_all = mtk_cqdma_terminate_all;
778b1f01e48SShun-Chih Yu dd->src_addr_widths = MTK_CQDMA_DMA_BUSWIDTHS;
779b1f01e48SShun-Chih Yu dd->dst_addr_widths = MTK_CQDMA_DMA_BUSWIDTHS;
780b1f01e48SShun-Chih Yu dd->directions = BIT(DMA_MEM_TO_MEM);
781b1f01e48SShun-Chih Yu dd->residue_granularity = DMA_RESIDUE_GRANULARITY_SEGMENT;
782b1f01e48SShun-Chih Yu dd->dev = &pdev->dev;
783b1f01e48SShun-Chih Yu INIT_LIST_HEAD(&dd->channels);
784b1f01e48SShun-Chih Yu
785b1f01e48SShun-Chih Yu if (pdev->dev.of_node && of_property_read_u32(pdev->dev.of_node,
786b1f01e48SShun-Chih Yu "dma-requests",
787b1f01e48SShun-Chih Yu &cqdma->dma_requests)) {
788b1f01e48SShun-Chih Yu dev_info(&pdev->dev,
789b1f01e48SShun-Chih Yu "Using %u as missing dma-requests property\n",
790b1f01e48SShun-Chih Yu MTK_CQDMA_NR_VCHANS);
791b1f01e48SShun-Chih Yu
792b1f01e48SShun-Chih Yu cqdma->dma_requests = MTK_CQDMA_NR_VCHANS;
793b1f01e48SShun-Chih Yu }
794b1f01e48SShun-Chih Yu
795b1f01e48SShun-Chih Yu if (pdev->dev.of_node && of_property_read_u32(pdev->dev.of_node,
796b1f01e48SShun-Chih Yu "dma-channels",
797b1f01e48SShun-Chih Yu &cqdma->dma_channels)) {
798b1f01e48SShun-Chih Yu dev_info(&pdev->dev,
799b1f01e48SShun-Chih Yu "Using %u as missing dma-channels property\n",
800b1f01e48SShun-Chih Yu MTK_CQDMA_NR_PCHANS);
801b1f01e48SShun-Chih Yu
802b1f01e48SShun-Chih Yu cqdma->dma_channels = MTK_CQDMA_NR_PCHANS;
803b1f01e48SShun-Chih Yu }
804b1f01e48SShun-Chih Yu
805b1f01e48SShun-Chih Yu cqdma->pc = devm_kcalloc(&pdev->dev, cqdma->dma_channels,
806b1f01e48SShun-Chih Yu sizeof(*cqdma->pc), GFP_KERNEL);
807b1f01e48SShun-Chih Yu if (!cqdma->pc)
808b1f01e48SShun-Chih Yu return -ENOMEM;
809b1f01e48SShun-Chih Yu
810b1f01e48SShun-Chih Yu /* initialization for PCs */
811b1f01e48SShun-Chih Yu for (i = 0; i < cqdma->dma_channels; ++i) {
812b1f01e48SShun-Chih Yu cqdma->pc[i] = devm_kcalloc(&pdev->dev, 1,
813b1f01e48SShun-Chih Yu sizeof(**cqdma->pc), GFP_KERNEL);
814b1f01e48SShun-Chih Yu if (!cqdma->pc[i])
815b1f01e48SShun-Chih Yu return -ENOMEM;
816b1f01e48SShun-Chih Yu
817b1f01e48SShun-Chih Yu INIT_LIST_HEAD(&cqdma->pc[i]->queue);
818b1f01e48SShun-Chih Yu spin_lock_init(&cqdma->pc[i]->lock);
819b1f01e48SShun-Chih Yu refcount_set(&cqdma->pc[i]->refcnt, 0);
8209d68427dSMarkus Elfring cqdma->pc[i]->base = devm_platform_ioremap_resource(pdev, i);
821b1f01e48SShun-Chih Yu if (IS_ERR(cqdma->pc[i]->base))
822b1f01e48SShun-Chih Yu return PTR_ERR(cqdma->pc[i]->base);
823b1f01e48SShun-Chih Yu
824b1f01e48SShun-Chih Yu /* allocate IRQ resource */
82580380f89SLad Prabhakar err = platform_get_irq(pdev, i);
82680380f89SLad Prabhakar if (err < 0)
82780380f89SLad Prabhakar return err;
82880380f89SLad Prabhakar cqdma->pc[i]->irq = err;
829b1f01e48SShun-Chih Yu
830b1f01e48SShun-Chih Yu err = devm_request_irq(&pdev->dev, cqdma->pc[i]->irq,
831b1f01e48SShun-Chih Yu mtk_cqdma_irq, 0, dev_name(&pdev->dev),
832b1f01e48SShun-Chih Yu cqdma);
833b1f01e48SShun-Chih Yu if (err) {
834b1f01e48SShun-Chih Yu dev_err(&pdev->dev,
835b1f01e48SShun-Chih Yu "request_irq failed with err %d\n", err);
836b1f01e48SShun-Chih Yu return -EINVAL;
837b1f01e48SShun-Chih Yu }
838b1f01e48SShun-Chih Yu }
839b1f01e48SShun-Chih Yu
840b1f01e48SShun-Chih Yu /* allocate resource for VCs */
841b1f01e48SShun-Chih Yu cqdma->vc = devm_kcalloc(&pdev->dev, cqdma->dma_requests,
842b1f01e48SShun-Chih Yu sizeof(*cqdma->vc), GFP_KERNEL);
843b1f01e48SShun-Chih Yu if (!cqdma->vc)
844b1f01e48SShun-Chih Yu return -ENOMEM;
845b1f01e48SShun-Chih Yu
846b1f01e48SShun-Chih Yu for (i = 0; i < cqdma->dma_requests; i++) {
847b1f01e48SShun-Chih Yu vc = &cqdma->vc[i];
848b1f01e48SShun-Chih Yu vc->vc.desc_free = mtk_cqdma_vdesc_free;
849b1f01e48SShun-Chih Yu vchan_init(&vc->vc, dd);
850b1f01e48SShun-Chih Yu init_completion(&vc->issue_completion);
851b1f01e48SShun-Chih Yu }
852b1f01e48SShun-Chih Yu
853b1f01e48SShun-Chih Yu err = dma_async_device_register(dd);
854b1f01e48SShun-Chih Yu if (err)
855b1f01e48SShun-Chih Yu return err;
856b1f01e48SShun-Chih Yu
857b1f01e48SShun-Chih Yu err = of_dma_controller_register(pdev->dev.of_node,
858b1f01e48SShun-Chih Yu of_dma_xlate_by_chan_id, cqdma);
859b1f01e48SShun-Chih Yu if (err) {
860b1f01e48SShun-Chih Yu dev_err(&pdev->dev,
861b1f01e48SShun-Chih Yu "MediaTek CQDMA OF registration failed %d\n", err);
862b1f01e48SShun-Chih Yu goto err_unregister;
863b1f01e48SShun-Chih Yu }
864b1f01e48SShun-Chih Yu
865b1f01e48SShun-Chih Yu err = mtk_cqdma_hw_init(cqdma);
866b1f01e48SShun-Chih Yu if (err) {
867b1f01e48SShun-Chih Yu dev_err(&pdev->dev,
868b1f01e48SShun-Chih Yu "MediaTek CQDMA HW initialization failed %d\n", err);
869b1f01e48SShun-Chih Yu goto err_unregister;
870b1f01e48SShun-Chih Yu }
871b1f01e48SShun-Chih Yu
872b1f01e48SShun-Chih Yu platform_set_drvdata(pdev, cqdma);
873b1f01e48SShun-Chih Yu
874b1f01e48SShun-Chih Yu /* initialize tasklet for each PC */
875b1f01e48SShun-Chih Yu for (i = 0; i < cqdma->dma_channels; ++i)
87680ef8869SAllen Pais tasklet_setup(&cqdma->pc[i]->tasklet, mtk_cqdma_tasklet_cb);
877b1f01e48SShun-Chih Yu
878b1f01e48SShun-Chih Yu dev_info(&pdev->dev, "MediaTek CQDMA driver registered\n");
879b1f01e48SShun-Chih Yu
880b1f01e48SShun-Chih Yu return 0;
881b1f01e48SShun-Chih Yu
882b1f01e48SShun-Chih Yu err_unregister:
883b1f01e48SShun-Chih Yu dma_async_device_unregister(dd);
884b1f01e48SShun-Chih Yu
885b1f01e48SShun-Chih Yu return err;
886b1f01e48SShun-Chih Yu }
887b1f01e48SShun-Chih Yu
mtk_cqdma_remove(struct platform_device * pdev)888b1f01e48SShun-Chih Yu static int mtk_cqdma_remove(struct platform_device *pdev)
889b1f01e48SShun-Chih Yu {
890b1f01e48SShun-Chih Yu struct mtk_cqdma_device *cqdma = platform_get_drvdata(pdev);
891b1f01e48SShun-Chih Yu struct mtk_cqdma_vchan *vc;
892b1f01e48SShun-Chih Yu unsigned long flags;
893b1f01e48SShun-Chih Yu int i;
894b1f01e48SShun-Chih Yu
895b1f01e48SShun-Chih Yu /* kill VC task */
896b1f01e48SShun-Chih Yu for (i = 0; i < cqdma->dma_requests; i++) {
897b1f01e48SShun-Chih Yu vc = &cqdma->vc[i];
898b1f01e48SShun-Chih Yu
899b1f01e48SShun-Chih Yu list_del(&vc->vc.chan.device_node);
900b1f01e48SShun-Chih Yu tasklet_kill(&vc->vc.task);
901b1f01e48SShun-Chih Yu }
902b1f01e48SShun-Chih Yu
903b1f01e48SShun-Chih Yu /* disable interrupt */
904b1f01e48SShun-Chih Yu for (i = 0; i < cqdma->dma_channels; i++) {
905b1f01e48SShun-Chih Yu spin_lock_irqsave(&cqdma->pc[i]->lock, flags);
906b1f01e48SShun-Chih Yu mtk_dma_clr(cqdma->pc[i], MTK_CQDMA_INT_EN,
907b1f01e48SShun-Chih Yu MTK_CQDMA_INT_EN_BIT);
908b1f01e48SShun-Chih Yu spin_unlock_irqrestore(&cqdma->pc[i]->lock, flags);
909b1f01e48SShun-Chih Yu
910b1f01e48SShun-Chih Yu /* Waits for any pending IRQ handlers to complete */
911b1f01e48SShun-Chih Yu synchronize_irq(cqdma->pc[i]->irq);
912b1f01e48SShun-Chih Yu
913b1f01e48SShun-Chih Yu tasklet_kill(&cqdma->pc[i]->tasklet);
914b1f01e48SShun-Chih Yu }
915b1f01e48SShun-Chih Yu
916b1f01e48SShun-Chih Yu /* disable hardware */
917b1f01e48SShun-Chih Yu mtk_cqdma_hw_deinit(cqdma);
918b1f01e48SShun-Chih Yu
919b1f01e48SShun-Chih Yu dma_async_device_unregister(&cqdma->ddev);
920b1f01e48SShun-Chih Yu of_dma_controller_free(pdev->dev.of_node);
921b1f01e48SShun-Chih Yu
922b1f01e48SShun-Chih Yu return 0;
923b1f01e48SShun-Chih Yu }
924b1f01e48SShun-Chih Yu
925b1f01e48SShun-Chih Yu static struct platform_driver mtk_cqdma_driver = {
926b1f01e48SShun-Chih Yu .probe = mtk_cqdma_probe,
927b1f01e48SShun-Chih Yu .remove = mtk_cqdma_remove,
928b1f01e48SShun-Chih Yu .driver = {
929b1f01e48SShun-Chih Yu .name = KBUILD_MODNAME,
930b1f01e48SShun-Chih Yu .of_match_table = mtk_cqdma_match,
931b1f01e48SShun-Chih Yu },
932b1f01e48SShun-Chih Yu };
933b1f01e48SShun-Chih Yu module_platform_driver(mtk_cqdma_driver);
934b1f01e48SShun-Chih Yu
935b1f01e48SShun-Chih Yu MODULE_DESCRIPTION("MediaTek CQDMA Controller Driver");
936b1f01e48SShun-Chih Yu MODULE_AUTHOR("Shun-Chih Yu <shun-chih.yu@mediatek.com>");
937b1f01e48SShun-Chih Yu MODULE_LICENSE("GPL v2");
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