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Fri, 31 May 2024 17:08:20 +0200 (CEST) Received: from localhost (10.252.27.179) by SHFDAG1NODE3.st.com (10.75.129.71) with Microsoft SMTP Server (version=TLS1_2, cipher=TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256) id 15.1.2507.35; Fri, 31 May 2024 17:08:19 +0200 From: Amelie Delaunay To: Vinod Koul , Rob Herring , Krzysztof Kozlowski , Conor Dooley , Maxime Coquelin , Alexandre Torgue CC: , , , , , , Amelie Delaunay Subject: [PATCH v4 05/12] dmaengine: Add STM32 DMA3 support Date: Fri, 31 May 2024 17:07:05 +0200 Message-ID: <20240531150712.2503554-6-amelie.delaunay@foss.st.com> X-Mailer: git-send-email 2.25.1 In-Reply-To: <20240531150712.2503554-1-amelie.delaunay@foss.st.com> References: <20240531150712.2503554-1-amelie.delaunay@foss.st.com> Precedence: bulk X-Mailing-List: linux-kernel@vger.kernel.org List-Id: List-Subscribe: List-Unsubscribe: MIME-Version: 1.0 Content-Transfer-Encoding: 8bit Content-Type: text/plain X-ClientProxiedBy: EQNCAS1NODE4.st.com (10.75.129.82) To SHFDAG1NODE3.st.com (10.75.129.71) X-Proofpoint-Virus-Version: vendor=baseguard engine=ICAP:2.0.293,Aquarius:18.0.1039,Hydra:6.0.650,FMLib:17.12.28.16 definitions=2024-05-31_11,2024-05-30_01,2024-05-17_01 STM32 DMA3 driver supports the 3 hardware configurations of the STM32 DMA3 controller: - LPDMA (Low Power): 4 channels, no FIFO - GPDMA (General Purpose): 16 channels, FIFO from 8 to 32 bytes - HPDMA (High Performance): 16 channels, FIFO from 8 to 256 bytes Hardware configuration of the channels is retrieved from the hardware configuration registers. The client can specify its channel requirements through device tree. STM32 DMA3 channels can be individually reserved either because they are secure, or dedicated to another CPU. Indeed, channels availability depends on Resource Isolation Framework (RIF) configuration. RIF grants access to buses with Compartment ID (CID) filtering, secure and privilege level. It also assigns DMA channels to one or several processors. DMA channels used by Linux should be CID-filtered and statically assigned to CID1 or shared with other CPUs but using semaphore. In case CID filtering is not configured, dma-channel-mask property can be used to specify available DMA channels to the kernel, otherwise such channels will be marked as reserved and can't be used by Linux. STM32 DMA3 is a new STM32 DMA controller, not a new version of an existing one. stm32-dma is not considered for reuse because register layout is completely different and doesn't rely on descriptors mechanism. stm32-mdma is based on descriptors mechanism but there are significant differences in register layout and descriptors structure. Signed-off-by: Amelie Delaunay --- v4: - align comments alignment in enum definition - use __packed for stm32_dma3_hwdesc structure - use generic dma_wmb() instead of __iowmb() v3: - fix typo in commit message (Compartment) - add a paragraph in commit message to explain why stm32-dma and stm32-mdma are not reused - add explicit write memory barrier on the last descriptor initialization v2: - lowercase in hex values - compatible has been updated to st,stm32mp25-dma3 (SoC specific) --- drivers/dma/stm32/Kconfig | 10 + drivers/dma/stm32/Makefile | 1 + drivers/dma/stm32/stm32-dma3.c | 1440 ++++++++++++++++++++++++++++++++ 3 files changed, 1451 insertions(+) create mode 100644 drivers/dma/stm32/stm32-dma3.c diff --git a/drivers/dma/stm32/Kconfig b/drivers/dma/stm32/Kconfig index b72ae1a4502f..4d8d8063133b 100644 --- a/drivers/dma/stm32/Kconfig +++ b/drivers/dma/stm32/Kconfig @@ -34,4 +34,14 @@ config STM32_MDMA If you have a board based on STM32 SoC with such DMA controller and want to use MDMA say Y here. +config STM32_DMA3 + tristate "STMicroelectronics STM32 DMA3 support" + select DMA_ENGINE + select DMA_VIRTUAL_CHANNELS + help + Enable support for the on-chip DMA3 controller on STMicroelectronics + STM32 platforms. + If you have a board based on STM32 SoC with such DMA3 controller + and want to use DMA3, say Y here. + endif diff --git a/drivers/dma/stm32/Makefile b/drivers/dma/stm32/Makefile index 663a3896a881..5082db4b4c1c 100644 --- a/drivers/dma/stm32/Makefile +++ b/drivers/dma/stm32/Makefile @@ -2,3 +2,4 @@ obj-$(CONFIG_STM32_DMA) += stm32-dma.o obj-$(CONFIG_STM32_DMAMUX) += stm32-dmamux.o obj-$(CONFIG_STM32_MDMA) += stm32-mdma.o +obj-$(CONFIG_STM32_DMA3) += stm32-dma3.o diff --git a/drivers/dma/stm32/stm32-dma3.c b/drivers/dma/stm32/stm32-dma3.c new file mode 100644 index 000000000000..49886117d29b --- /dev/null +++ b/drivers/dma/stm32/stm32-dma3.c @@ -0,0 +1,1440 @@ +// SPDX-License-Identifier: GPL-2.0-only +/* + * STM32 DMA3 controller driver + * + * Copyright (C) STMicroelectronics 2024 + * Author(s): Amelie Delaunay + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "../virt-dma.h" + +#define STM32_DMA3_SECCFGR 0x00 +#define STM32_DMA3_PRIVCFGR 0x04 +#define STM32_DMA3_RCFGLOCKR 0x08 +#define STM32_DMA3_MISR 0x0c +#define STM32_DMA3_SMISR 0x10 + +#define STM32_DMA3_CLBAR(x) (0x50 + 0x80 * (x)) +#define STM32_DMA3_CCIDCFGR(x) (0x54 + 0x80 * (x)) +#define STM32_DMA3_CSEMCR(x) (0x58 + 0x80 * (x)) +#define STM32_DMA3_CFCR(x) (0x5c + 0x80 * (x)) +#define STM32_DMA3_CSR(x) (0x60 + 0x80 * (x)) +#define STM32_DMA3_CCR(x) (0x64 + 0x80 * (x)) +#define STM32_DMA3_CTR1(x) (0x90 + 0x80 * (x)) +#define STM32_DMA3_CTR2(x) (0x94 + 0x80 * (x)) +#define STM32_DMA3_CBR1(x) (0x98 + 0x80 * (x)) +#define STM32_DMA3_CSAR(x) (0x9c + 0x80 * (x)) +#define STM32_DMA3_CDAR(x) (0xa0 + 0x80 * (x)) +#define STM32_DMA3_CLLR(x) (0xcc + 0x80 * (x)) + +#define STM32_DMA3_HWCFGR13 0xfc0 /* G_PER_CTRL(X) x=8..15 */ +#define STM32_DMA3_HWCFGR12 0xfc4 /* G_PER_CTRL(X) x=0..7 */ +#define STM32_DMA3_HWCFGR4 0xfe4 /* G_FIFO_SIZE(X) x=8..15 */ +#define STM32_DMA3_HWCFGR3 0xfe8 /* G_FIFO_SIZE(X) x=0..7 */ +#define STM32_DMA3_HWCFGR2 0xfec /* G_MAX_REQ_ID */ +#define STM32_DMA3_HWCFGR1 0xff0 /* G_MASTER_PORTS, G_NUM_CHANNELS, G_Mx_DATA_WIDTH */ +#define STM32_DMA3_VERR 0xff4 + +/* SECCFGR DMA secure configuration register */ +#define SECCFGR_SEC(x) BIT(x) + +/* MISR DMA non-secure/secure masked interrupt status register */ +#define MISR_MIS(x) BIT(x) + +/* CxLBAR DMA channel x linked_list base address register */ +#define CLBAR_LBA GENMASK(31, 16) + +/* CxCIDCFGR DMA channel x CID register */ +#define CCIDCFGR_CFEN BIT(0) +#define CCIDCFGR_SEM_EN BIT(1) +#define CCIDCFGR_SCID GENMASK(5, 4) +#define CCIDCFGR_SEM_WLIST_CID0 BIT(16) +#define CCIDCFGR_SEM_WLIST_CID1 BIT(17) +#define CCIDCFGR_SEM_WLIST_CID2 BIT(18) + +enum ccidcfgr_cid { + CCIDCFGR_CID0, + CCIDCFGR_CID1, + CCIDCFGR_CID2, +}; + +/* CxSEMCR DMA channel x semaphore control register */ +#define CSEMCR_SEM_MUTEX BIT(0) +#define CSEMCR_SEM_CCID GENMASK(5, 4) + +/* CxFCR DMA channel x flag clear register */ +#define CFCR_TCF BIT(8) +#define CFCR_HTF BIT(9) +#define CFCR_DTEF BIT(10) +#define CFCR_ULEF BIT(11) +#define CFCR_USEF BIT(12) +#define CFCR_SUSPF BIT(13) + +/* CxSR DMA channel x status register */ +#define CSR_IDLEF BIT(0) +#define CSR_TCF BIT(8) +#define CSR_HTF BIT(9) +#define CSR_DTEF BIT(10) +#define CSR_ULEF BIT(11) +#define CSR_USEF BIT(12) +#define CSR_SUSPF BIT(13) +#define CSR_ALL_F GENMASK(13, 8) +#define CSR_FIFOL GENMASK(24, 16) + +/* CxCR DMA channel x control register */ +#define CCR_EN BIT(0) +#define CCR_RESET BIT(1) +#define CCR_SUSP BIT(2) +#define CCR_TCIE BIT(8) +#define CCR_HTIE BIT(9) +#define CCR_DTEIE BIT(10) +#define CCR_ULEIE BIT(11) +#define CCR_USEIE BIT(12) +#define CCR_SUSPIE BIT(13) +#define CCR_ALLIE GENMASK(13, 8) +#define CCR_LSM BIT(16) +#define CCR_LAP BIT(17) +#define CCR_PRIO GENMASK(23, 22) + +enum ccr_prio { + CCR_PRIO_LOW, + CCR_PRIO_MID, + CCR_PRIO_HIGH, + CCR_PRIO_VERY_HIGH, +}; + +/* CxTR1 DMA channel x transfer register 1 */ +#define CTR1_SINC BIT(3) +#define CTR1_SBL_1 GENMASK(9, 4) +#define CTR1_DINC BIT(19) +#define CTR1_DBL_1 GENMASK(25, 20) +#define CTR1_SDW_LOG2 GENMASK(1, 0) +#define CTR1_PAM GENMASK(12, 11) +#define CTR1_SAP BIT(14) +#define CTR1_DDW_LOG2 GENMASK(17, 16) +#define CTR1_DAP BIT(30) + +enum ctr1_dw { + CTR1_DW_BYTE, + CTR1_DW_HWORD, + CTR1_DW_WORD, + CTR1_DW_DWORD, /* Depends on HWCFGR1.G_M0_DATA_WIDTH_ENC and .G_M1_DATA_WIDTH_ENC */ +}; + +enum ctr1_pam { + CTR1_PAM_0S_LT, /* if DDW > SDW, padded with 0s else left-truncated */ + CTR1_PAM_SE_RT, /* if DDW > SDW, sign extended else right-truncated */ + CTR1_PAM_PACK_UNPACK, /* FIFO queued */ +}; + +/* CxTR2 DMA channel x transfer register 2 */ +#define CTR2_REQSEL GENMASK(7, 0) +#define CTR2_SWREQ BIT(9) +#define CTR2_DREQ BIT(10) +#define CTR2_BREQ BIT(11) +#define CTR2_PFREQ BIT(12) +#define CTR2_TCEM GENMASK(31, 30) + +enum ctr2_tcem { + CTR2_TCEM_BLOCK, + CTR2_TCEM_REPEAT_BLOCK, + CTR2_TCEM_LLI, + CTR2_TCEM_CHANNEL, +}; + +/* CxBR1 DMA channel x block register 1 */ +#define CBR1_BNDT GENMASK(15, 0) + +/* CxLLR DMA channel x linked-list address register */ +#define CLLR_LA GENMASK(15, 2) +#define CLLR_ULL BIT(16) +#define CLLR_UDA BIT(27) +#define CLLR_USA BIT(28) +#define CLLR_UB1 BIT(29) +#define CLLR_UT2 BIT(30) +#define CLLR_UT1 BIT(31) + +/* HWCFGR13 DMA hardware configuration register 13 x=8..15 */ +/* HWCFGR12 DMA hardware configuration register 12 x=0..7 */ +#define G_PER_CTRL(x) (ULL(0x1) << (4 * (x))) + +/* HWCFGR4 DMA hardware configuration register 4 x=8..15 */ +/* HWCFGR3 DMA hardware configuration register 3 x=0..7 */ +#define G_FIFO_SIZE(x) (ULL(0x7) << (4 * (x))) + +#define get_chan_hwcfg(x, mask, reg) (((reg) & (mask)) >> (4 * (x))) + +/* HWCFGR2 DMA hardware configuration register 2 */ +#define G_MAX_REQ_ID GENMASK(7, 0) + +/* HWCFGR1 DMA hardware configuration register 1 */ +#define G_MASTER_PORTS GENMASK(2, 0) +#define G_NUM_CHANNELS GENMASK(12, 8) +#define G_M0_DATA_WIDTH_ENC GENMASK(25, 24) +#define G_M1_DATA_WIDTH_ENC GENMASK(29, 28) + +enum stm32_dma3_master_ports { + AXI64, /* 1x AXI: 64-bit port 0 */ + AHB32, /* 1x AHB: 32-bit port 0 */ + AHB32_AHB32, /* 2x AHB: 32-bit port 0 and 32-bit port 1 */ + AXI64_AHB32, /* 1x AXI 64-bit port 0 and 1x AHB 32-bit port 1 */ + AXI64_AXI64, /* 2x AXI: 64-bit port 0 and 64-bit port 1 */ + AXI128_AHB32, /* 1x AXI 128-bit port 0 and 1x AHB 32-bit port 1 */ +}; + +enum stm32_dma3_port_data_width { + DW_32, /* 32-bit, for AHB */ + DW_64, /* 64-bit, for AXI */ + DW_128, /* 128-bit, for AXI */ + DW_INVALID, +}; + +/* VERR DMA version register */ +#define VERR_MINREV GENMASK(3, 0) +#define VERR_MAJREV GENMASK(7, 4) + +/* Device tree */ +/* struct stm32_dma3_dt_conf */ +/* .ch_conf */ +#define STM32_DMA3_DT_PRIO GENMASK(1, 0) /* CCR_PRIO */ +#define STM32_DMA3_DT_FIFO GENMASK(7, 4) +/* .tr_conf */ +#define STM32_DMA3_DT_SINC BIT(0) /* CTR1_SINC */ +#define STM32_DMA3_DT_SAP BIT(1) /* CTR1_SAP */ +#define STM32_DMA3_DT_DINC BIT(4) /* CTR1_DINC */ +#define STM32_DMA3_DT_DAP BIT(5) /* CTR1_DAP */ +#define STM32_DMA3_DT_BREQ BIT(8) /* CTR2_BREQ */ +#define STM32_DMA3_DT_PFREQ BIT(9) /* CTR2_PFREQ */ +#define STM32_DMA3_DT_TCEM GENMASK(13, 12) /* CTR2_TCEM */ + +#define STM32_DMA3_MAX_BLOCK_SIZE ALIGN_DOWN(CBR1_BNDT, 64) +#define port_is_ahb(maxdw) ({ typeof(maxdw) (_maxdw) = (maxdw); \ + ((_maxdw) != DW_INVALID) && ((_maxdw) == DW_32); }) +#define port_is_axi(maxdw) ({ typeof(maxdw) (_maxdw) = (maxdw); \ + ((_maxdw) != DW_INVALID) && ((_maxdw) != DW_32); }) +#define get_chan_max_dw(maxdw, maxburst)((port_is_ahb(maxdw) || \ + (maxburst) < DMA_SLAVE_BUSWIDTH_8_BYTES) ? \ + DMA_SLAVE_BUSWIDTH_4_BYTES : DMA_SLAVE_BUSWIDTH_8_BYTES) + +/* Static linked-list data structure (depends on update bits UT1/UT2/UB1/USA/UDA/ULL) */ +struct stm32_dma3_hwdesc { + u32 ctr1; + u32 ctr2; + u32 cbr1; + u32 csar; + u32 cdar; + u32 cllr; +} __packed __aligned(32); + +/* + * CLLR_LA / sizeof(struct stm32_dma3_hwdesc) represents the number of hdwdesc that can be addressed + * by the pointer to the next linked-list data structure. The __aligned forces the 32-byte + * alignment. So use hardcoded 32. Multiplied by the max block size of each item, it represents + * the sg size limitation. + */ +#define STM32_DMA3_MAX_SEG_SIZE ((CLLR_LA / 32) * STM32_DMA3_MAX_BLOCK_SIZE) + +/* + * Linked-list items + */ +struct stm32_dma3_lli { + struct stm32_dma3_hwdesc *hwdesc; + dma_addr_t hwdesc_addr; +}; + +struct stm32_dma3_swdesc { + struct virt_dma_desc vdesc; + u32 ccr; + bool cyclic; + u32 lli_size; + struct stm32_dma3_lli lli[] __counted_by(lli_size); +}; + +struct stm32_dma3_dt_conf { + u32 ch_id; + u32 req_line; + u32 ch_conf; + u32 tr_conf; +}; + +struct stm32_dma3_chan { + struct virt_dma_chan vchan; + u32 id; + int irq; + u32 fifo_size; + u32 max_burst; + bool semaphore_mode; + struct stm32_dma3_dt_conf dt_config; + struct dma_slave_config dma_config; + struct dma_pool *lli_pool; + struct stm32_dma3_swdesc *swdesc; + enum ctr2_tcem tcem; + u32 dma_status; +}; + +struct stm32_dma3_ddata { + struct dma_device dma_dev; + void __iomem *base; + struct clk *clk; + struct stm32_dma3_chan *chans; + u32 dma_channels; + u32 dma_requests; + enum stm32_dma3_port_data_width ports_max_dw[2]; +}; + +static inline struct stm32_dma3_ddata *to_stm32_dma3_ddata(struct stm32_dma3_chan *chan) +{ + return container_of(chan->vchan.chan.device, struct stm32_dma3_ddata, dma_dev); +} + +static inline struct stm32_dma3_chan *to_stm32_dma3_chan(struct dma_chan *c) +{ + return container_of(c, struct stm32_dma3_chan, vchan.chan); +} + +static inline struct stm32_dma3_swdesc *to_stm32_dma3_swdesc(struct virt_dma_desc *vdesc) +{ + return container_of(vdesc, struct stm32_dma3_swdesc, vdesc); +} + +static struct device *chan2dev(struct stm32_dma3_chan *chan) +{ + return &chan->vchan.chan.dev->device; +} + +static void stm32_dma3_chan_dump_reg(struct stm32_dma3_chan *chan) +{ + struct stm32_dma3_ddata *ddata = to_stm32_dma3_ddata(chan); + struct device *dev = chan2dev(chan); + u32 id = chan->id, offset; + + offset = STM32_DMA3_SECCFGR; + dev_dbg(dev, "SECCFGR(0x%03x): %08x\n", offset, readl_relaxed(ddata->base + offset)); + offset = STM32_DMA3_PRIVCFGR; + dev_dbg(dev, "PRIVCFGR(0x%03x): %08x\n", offset, readl_relaxed(ddata->base + offset)); + offset = STM32_DMA3_CCIDCFGR(id); + dev_dbg(dev, "C%dCIDCFGR(0x%03x): %08x\n", id, offset, readl_relaxed(ddata->base + offset)); + offset = STM32_DMA3_CSEMCR(id); + dev_dbg(dev, "C%dSEMCR(0x%03x): %08x\n", id, offset, readl_relaxed(ddata->base + offset)); + offset = STM32_DMA3_CSR(id); + dev_dbg(dev, "C%dSR(0x%03x): %08x\n", id, offset, readl_relaxed(ddata->base + offset)); + offset = STM32_DMA3_CCR(id); + dev_dbg(dev, "C%dCR(0x%03x): %08x\n", id, offset, readl_relaxed(ddata->base + offset)); + offset = STM32_DMA3_CTR1(id); + dev_dbg(dev, "C%dTR1(0x%03x): %08x\n", id, offset, readl_relaxed(ddata->base + offset)); + offset = STM32_DMA3_CTR2(id); + dev_dbg(dev, "C%dTR2(0x%03x): %08x\n", id, offset, readl_relaxed(ddata->base + offset)); + offset = STM32_DMA3_CBR1(id); + dev_dbg(dev, "C%dBR1(0x%03x): %08x\n", id, offset, readl_relaxed(ddata->base + offset)); + offset = STM32_DMA3_CSAR(id); + dev_dbg(dev, "C%dSAR(0x%03x): %08x\n", id, offset, readl_relaxed(ddata->base + offset)); + offset = STM32_DMA3_CDAR(id); + dev_dbg(dev, "C%dDAR(0x%03x): %08x\n", id, offset, readl_relaxed(ddata->base + offset)); + offset = STM32_DMA3_CLLR(id); + dev_dbg(dev, "C%dLLR(0x%03x): %08x\n", id, offset, readl_relaxed(ddata->base + offset)); + offset = STM32_DMA3_CLBAR(id); + dev_dbg(dev, "C%dLBAR(0x%03x): %08x\n", id, offset, readl_relaxed(ddata->base + offset)); +} + +static void stm32_dma3_chan_dump_hwdesc(struct stm32_dma3_chan *chan, + struct stm32_dma3_swdesc *swdesc) +{ + struct stm32_dma3_hwdesc *hwdesc; + int i; + + for (i = 0; i < swdesc->lli_size; i++) { + hwdesc = swdesc->lli[i].hwdesc; + if (i) + dev_dbg(chan2dev(chan), "V\n"); + dev_dbg(chan2dev(chan), "[%d]@%pad\n", i, &swdesc->lli[i].hwdesc_addr); + dev_dbg(chan2dev(chan), "| C%dTR1: %08x\n", chan->id, hwdesc->ctr1); + dev_dbg(chan2dev(chan), "| C%dTR2: %08x\n", chan->id, hwdesc->ctr2); + dev_dbg(chan2dev(chan), "| C%dBR1: %08x\n", chan->id, hwdesc->cbr1); + dev_dbg(chan2dev(chan), "| C%dSAR: %08x\n", chan->id, hwdesc->csar); + dev_dbg(chan2dev(chan), "| C%dDAR: %08x\n", chan->id, hwdesc->cdar); + dev_dbg(chan2dev(chan), "| C%dLLR: %08x\n", chan->id, hwdesc->cllr); + } + + if (swdesc->cyclic) { + dev_dbg(chan2dev(chan), "|\n"); + dev_dbg(chan2dev(chan), "-->[0]@%pad\n", &swdesc->lli[0].hwdesc_addr); + } else { + dev_dbg(chan2dev(chan), "X\n"); + } +} + +static struct stm32_dma3_swdesc *stm32_dma3_chan_desc_alloc(struct stm32_dma3_chan *chan, u32 count) +{ + struct stm32_dma3_ddata *ddata = to_stm32_dma3_ddata(chan); + struct stm32_dma3_swdesc *swdesc; + int i; + + /* + * If the memory to be allocated for the number of hwdesc (6 u32 members but 32-bytes + * aligned) is greater than the maximum address of CLLR_LA, then the last items can't be + * addressed, so abort the allocation. + */ + if ((count * 32) > CLLR_LA) { + dev_err(chan2dev(chan), "Transfer is too big (> %luB)\n", STM32_DMA3_MAX_SEG_SIZE); + return NULL; + } + + swdesc = kzalloc(struct_size(swdesc, lli, count), GFP_NOWAIT); + if (!swdesc) + return NULL; + + for (i = 0; i < count; i++) { + swdesc->lli[i].hwdesc = dma_pool_zalloc(chan->lli_pool, GFP_NOWAIT, + &swdesc->lli[i].hwdesc_addr); + if (!swdesc->lli[i].hwdesc) + goto err_pool_free; + } + swdesc->lli_size = count; + swdesc->ccr = 0; + + /* Set LL base address */ + writel_relaxed(swdesc->lli[0].hwdesc_addr & CLBAR_LBA, + ddata->base + STM32_DMA3_CLBAR(chan->id)); + + /* Set LL allocated port */ + swdesc->ccr &= ~CCR_LAP; + + return swdesc; + +err_pool_free: + dev_err(chan2dev(chan), "Failed to alloc descriptors\n"); + while (--i >= 0) + dma_pool_free(chan->lli_pool, swdesc->lli[i].hwdesc, swdesc->lli[i].hwdesc_addr); + kfree(swdesc); + + return NULL; +} + +static void stm32_dma3_chan_desc_free(struct stm32_dma3_chan *chan, + struct stm32_dma3_swdesc *swdesc) +{ + int i; + + for (i = 0; i < swdesc->lli_size; i++) + dma_pool_free(chan->lli_pool, swdesc->lli[i].hwdesc, swdesc->lli[i].hwdesc_addr); + + kfree(swdesc); +} + +static void stm32_dma3_chan_vdesc_free(struct virt_dma_desc *vdesc) +{ + struct stm32_dma3_swdesc *swdesc = to_stm32_dma3_swdesc(vdesc); + struct stm32_dma3_chan *chan = to_stm32_dma3_chan(vdesc->tx.chan); + + stm32_dma3_chan_desc_free(chan, swdesc); +} + +static void stm32_dma3_check_user_setting(struct stm32_dma3_chan *chan) +{ + struct stm32_dma3_ddata *ddata = to_stm32_dma3_ddata(chan); + struct device *dev = chan2dev(chan); + u32 ctr1 = readl_relaxed(ddata->base + STM32_DMA3_CTR1(chan->id)); + u32 cbr1 = readl_relaxed(ddata->base + STM32_DMA3_CBR1(chan->id)); + u32 csar = readl_relaxed(ddata->base + STM32_DMA3_CSAR(chan->id)); + u32 cdar = readl_relaxed(ddata->base + STM32_DMA3_CDAR(chan->id)); + u32 cllr = readl_relaxed(ddata->base + STM32_DMA3_CLLR(chan->id)); + u32 bndt = FIELD_GET(CBR1_BNDT, cbr1); + u32 sdw = 1 << FIELD_GET(CTR1_SDW_LOG2, ctr1); + u32 ddw = 1 << FIELD_GET(CTR1_DDW_LOG2, ctr1); + u32 sap = FIELD_GET(CTR1_SAP, ctr1); + u32 dap = FIELD_GET(CTR1_DAP, ctr1); + + if (!bndt && !FIELD_GET(CLLR_UB1, cllr)) + dev_err(dev, "null source block size and no update of this value\n"); + if (bndt % sdw) + dev_err(dev, "source block size not multiple of src data width\n"); + if (FIELD_GET(CTR1_PAM, ctr1) == CTR1_PAM_PACK_UNPACK && bndt % ddw) + dev_err(dev, "(un)packing mode w/ src block size not multiple of dst data width\n"); + if (csar % sdw) + dev_err(dev, "unaligned source address not multiple of src data width\n"); + if (cdar % ddw) + dev_err(dev, "unaligned destination address not multiple of dst data width\n"); + if (sdw == DMA_SLAVE_BUSWIDTH_8_BYTES && port_is_ahb(ddata->ports_max_dw[sap])) + dev_err(dev, "double-word source data width not supported on port %u\n", sap); + if (ddw == DMA_SLAVE_BUSWIDTH_8_BYTES && port_is_ahb(ddata->ports_max_dw[dap])) + dev_err(dev, "double-word destination data width not supported on port %u\n", dap); +} + +static void stm32_dma3_chan_prep_hwdesc(struct stm32_dma3_chan *chan, + struct stm32_dma3_swdesc *swdesc, + u32 curr, dma_addr_t src, dma_addr_t dst, u32 len, + u32 ctr1, u32 ctr2, bool is_last, bool is_cyclic) +{ + struct stm32_dma3_hwdesc *hwdesc; + dma_addr_t next_lli; + u32 next = curr + 1; + + hwdesc = swdesc->lli[curr].hwdesc; + hwdesc->ctr1 = ctr1; + hwdesc->ctr2 = ctr2; + hwdesc->cbr1 = FIELD_PREP(CBR1_BNDT, len); + hwdesc->csar = src; + hwdesc->cdar = dst; + + if (is_last) { + if (is_cyclic) + next_lli = swdesc->lli[0].hwdesc_addr; + else + next_lli = 0; + } else { + next_lli = swdesc->lli[next].hwdesc_addr; + } + + hwdesc->cllr = 0; + if (next_lli) { + hwdesc->cllr |= CLLR_UT1 | CLLR_UT2 | CLLR_UB1; + hwdesc->cllr |= CLLR_USA | CLLR_UDA | CLLR_ULL; + hwdesc->cllr |= (next_lli & CLLR_LA); + } + + /* + * Make sure to flush the CPU's write buffers so that the descriptors are ready to be read + * by DMA3. By explicitly using a write memory barrier here, instead of doing it with writel + * to enable the channel, we avoid an unnecessary barrier in the case where the descriptors + * are reused (DMA_CTRL_REUSE). + */ + if (is_last) + dma_wmb(); +} + +static enum dma_slave_buswidth stm32_dma3_get_max_dw(u32 chan_max_burst, + enum stm32_dma3_port_data_width port_max_dw, + u32 len, dma_addr_t addr) +{ + enum dma_slave_buswidth max_dw = get_chan_max_dw(port_max_dw, chan_max_burst); + + /* len and addr must be a multiple of dw */ + return 1 << __ffs(len | addr | max_dw); +} + +static u32 stm32_dma3_get_max_burst(u32 len, enum dma_slave_buswidth dw, u32 chan_max_burst) +{ + u32 max_burst = chan_max_burst ? chan_max_burst / dw : 1; + + /* len is a multiple of dw, so if len is < chan_max_burst, shorten burst */ + if (len < chan_max_burst) + max_burst = len / dw; + + /* + * HW doesn't modify the burst if burst size <= half of the fifo size. + * If len is not a multiple of burst size, last burst is shortened by HW. + */ + return max_burst; +} + +static int stm32_dma3_chan_prep_hw(struct stm32_dma3_chan *chan, enum dma_transfer_direction dir, + u32 *ccr, u32 *ctr1, u32 *ctr2, + dma_addr_t src_addr, dma_addr_t dst_addr, u32 len) +{ + struct stm32_dma3_ddata *ddata = to_stm32_dma3_ddata(chan); + struct dma_device dma_device = ddata->dma_dev; + u32 sdw, ddw, sbl_max, dbl_max, tcem; + u32 _ctr1 = 0, _ctr2 = 0; + u32 ch_conf = chan->dt_config.ch_conf; + u32 tr_conf = chan->dt_config.tr_conf; + u32 sap = FIELD_GET(STM32_DMA3_DT_SAP, tr_conf), sap_max_dw; + u32 dap = FIELD_GET(STM32_DMA3_DT_DAP, tr_conf), dap_max_dw; + + dev_dbg(chan2dev(chan), "%s from %pad to %pad\n", + dmaengine_get_direction_text(dir), &src_addr, &dst_addr); + + sdw = chan->dma_config.src_addr_width ? : get_chan_max_dw(sap, chan->max_burst); + ddw = chan->dma_config.dst_addr_width ? : get_chan_max_dw(dap, chan->max_burst); + sbl_max = chan->dma_config.src_maxburst ? : 1; + dbl_max = chan->dma_config.dst_maxburst ? : 1; + + /* Following conditions would raise User Setting Error interrupt */ + if (!(dma_device.src_addr_widths & BIT(sdw)) || !(dma_device.dst_addr_widths & BIT(ddw))) { + dev_err(chan2dev(chan), "Bus width (src=%u, dst=%u) not supported\n", sdw, ddw); + return -EINVAL; + } + + if (ddata->ports_max_dw[1] == DW_INVALID && (sap || dap)) { + dev_err(chan2dev(chan), "Only one master port, port 1 is not supported\n"); + return -EINVAL; + } + + sap_max_dw = ddata->ports_max_dw[sap]; + dap_max_dw = ddata->ports_max_dw[dap]; + if ((port_is_ahb(sap_max_dw) && sdw == DMA_SLAVE_BUSWIDTH_8_BYTES) || + (port_is_ahb(dap_max_dw) && ddw == DMA_SLAVE_BUSWIDTH_8_BYTES)) { + dev_err(chan2dev(chan), + "8 bytes buswidth (src=%u, dst=%u) not supported on port (sap=%u, dap=%u\n", + sdw, ddw, sap, dap); + return -EINVAL; + } + + if (FIELD_GET(STM32_DMA3_DT_SINC, tr_conf)) + _ctr1 |= CTR1_SINC; + if (sap) + _ctr1 |= CTR1_SAP; + if (FIELD_GET(STM32_DMA3_DT_DINC, tr_conf)) + _ctr1 |= CTR1_DINC; + if (dap) + _ctr1 |= CTR1_DAP; + + _ctr2 |= FIELD_PREP(CTR2_REQSEL, chan->dt_config.req_line) & ~CTR2_SWREQ; + if (FIELD_GET(STM32_DMA3_DT_BREQ, tr_conf)) + _ctr2 |= CTR2_BREQ; + if (dir == DMA_DEV_TO_MEM && FIELD_GET(STM32_DMA3_DT_PFREQ, tr_conf)) + _ctr2 |= CTR2_PFREQ; + tcem = FIELD_GET(STM32_DMA3_DT_TCEM, tr_conf); + _ctr2 |= FIELD_PREP(CTR2_TCEM, tcem); + + /* Store TCEM to know on which event TC flag occurred */ + chan->tcem = tcem; + /* Store direction for residue computation */ + chan->dma_config.direction = dir; + + switch (dir) { + case DMA_MEM_TO_DEV: + /* Set destination (device) data width and burst */ + ddw = min_t(u32, ddw, stm32_dma3_get_max_dw(chan->max_burst, dap_max_dw, + len, dst_addr)); + dbl_max = min_t(u32, dbl_max, stm32_dma3_get_max_burst(len, ddw, chan->max_burst)); + + /* Set source (memory) data width and burst */ + sdw = stm32_dma3_get_max_dw(chan->max_burst, sap_max_dw, len, src_addr); + sbl_max = stm32_dma3_get_max_burst(len, sdw, chan->max_burst); + + _ctr1 |= FIELD_PREP(CTR1_SDW_LOG2, ilog2(sdw)); + _ctr1 |= FIELD_PREP(CTR1_SBL_1, sbl_max - 1); + _ctr1 |= FIELD_PREP(CTR1_DDW_LOG2, ilog2(ddw)); + _ctr1 |= FIELD_PREP(CTR1_DBL_1, dbl_max - 1); + + if (ddw != sdw) { + _ctr1 |= FIELD_PREP(CTR1_PAM, CTR1_PAM_PACK_UNPACK); + /* Should never reach this case as ddw is clamped down */ + if (len & (ddw - 1)) { + dev_err(chan2dev(chan), + "Packing mode is enabled and len is not multiple of ddw"); + return -EINVAL; + } + } + + /* dst = dev */ + _ctr2 |= CTR2_DREQ; + + break; + + case DMA_DEV_TO_MEM: + /* Set source (device) data width and burst */ + sdw = min_t(u32, sdw, stm32_dma3_get_max_dw(chan->max_burst, sap_max_dw, + len, src_addr)); + sbl_max = min_t(u32, sbl_max, stm32_dma3_get_max_burst(len, sdw, chan->max_burst)); + + /* Set destination (memory) data width and burst */ + ddw = stm32_dma3_get_max_dw(chan->max_burst, dap_max_dw, len, dst_addr); + dbl_max = stm32_dma3_get_max_burst(len, ddw, chan->max_burst); + + _ctr1 |= FIELD_PREP(CTR1_SDW_LOG2, ilog2(sdw)); + _ctr1 |= FIELD_PREP(CTR1_SBL_1, sbl_max - 1); + _ctr1 |= FIELD_PREP(CTR1_DDW_LOG2, ilog2(ddw)); + _ctr1 |= FIELD_PREP(CTR1_DBL_1, dbl_max - 1); + + if (ddw != sdw) { + _ctr1 |= FIELD_PREP(CTR1_PAM, CTR1_PAM_PACK_UNPACK); + /* Should never reach this case as ddw is clamped down */ + if (len & (ddw - 1)) { + dev_err(chan2dev(chan), + "Packing mode is enabled and len is not multiple of ddw\n"); + return -EINVAL; + } + } + + /* dst = mem */ + _ctr2 &= ~CTR2_DREQ; + + break; + + default: + dev_err(chan2dev(chan), "Direction %s not supported\n", + dmaengine_get_direction_text(dir)); + return -EINVAL; + } + + *ccr |= FIELD_PREP(CCR_PRIO, FIELD_GET(STM32_DMA3_DT_PRIO, ch_conf)); + *ctr1 = _ctr1; + *ctr2 = _ctr2; + + dev_dbg(chan2dev(chan), "%s: sdw=%u bytes sbl=%u beats ddw=%u bytes dbl=%u beats\n", + __func__, sdw, sbl_max, ddw, dbl_max); + + return 0; +} + +static void stm32_dma3_chan_start(struct stm32_dma3_chan *chan) +{ + struct stm32_dma3_ddata *ddata = to_stm32_dma3_ddata(chan); + struct virt_dma_desc *vdesc; + struct stm32_dma3_hwdesc *hwdesc; + u32 id = chan->id; + u32 csr, ccr; + + vdesc = vchan_next_desc(&chan->vchan); + if (!vdesc) { + chan->swdesc = NULL; + return; + } + list_del(&vdesc->node); + + chan->swdesc = to_stm32_dma3_swdesc(vdesc); + hwdesc = chan->swdesc->lli[0].hwdesc; + + stm32_dma3_chan_dump_hwdesc(chan, chan->swdesc); + + writel_relaxed(chan->swdesc->ccr, ddata->base + STM32_DMA3_CCR(id)); + writel_relaxed(hwdesc->ctr1, ddata->base + STM32_DMA3_CTR1(id)); + writel_relaxed(hwdesc->ctr2, ddata->base + STM32_DMA3_CTR2(id)); + writel_relaxed(hwdesc->cbr1, ddata->base + STM32_DMA3_CBR1(id)); + writel_relaxed(hwdesc->csar, ddata->base + STM32_DMA3_CSAR(id)); + writel_relaxed(hwdesc->cdar, ddata->base + STM32_DMA3_CDAR(id)); + writel_relaxed(hwdesc->cllr, ddata->base + STM32_DMA3_CLLR(id)); + + /* Clear any pending interrupts */ + csr = readl_relaxed(ddata->base + STM32_DMA3_CSR(id)); + if (csr & CSR_ALL_F) + writel_relaxed(csr, ddata->base + STM32_DMA3_CFCR(id)); + + stm32_dma3_chan_dump_reg(chan); + + ccr = readl_relaxed(ddata->base + STM32_DMA3_CCR(id)); + writel_relaxed(ccr | CCR_EN, ddata->base + STM32_DMA3_CCR(id)); + + chan->dma_status = DMA_IN_PROGRESS; + + dev_dbg(chan2dev(chan), "vchan %pK: started\n", &chan->vchan); +} + +static int stm32_dma3_chan_suspend(struct stm32_dma3_chan *chan, bool susp) +{ + struct stm32_dma3_ddata *ddata = to_stm32_dma3_ddata(chan); + u32 csr, ccr = readl_relaxed(ddata->base + STM32_DMA3_CCR(chan->id)) & ~CCR_EN; + int ret = 0; + + if (susp) + ccr |= CCR_SUSP; + else + ccr &= ~CCR_SUSP; + + writel_relaxed(ccr, ddata->base + STM32_DMA3_CCR(chan->id)); + + if (susp) { + ret = readl_relaxed_poll_timeout_atomic(ddata->base + STM32_DMA3_CSR(chan->id), csr, + csr & CSR_SUSPF, 1, 10); + if (!ret) + writel_relaxed(CFCR_SUSPF, ddata->base + STM32_DMA3_CFCR(chan->id)); + + stm32_dma3_chan_dump_reg(chan); + } + + return ret; +} + +static void stm32_dma3_chan_reset(struct stm32_dma3_chan *chan) +{ + struct stm32_dma3_ddata *ddata = to_stm32_dma3_ddata(chan); + u32 ccr = readl_relaxed(ddata->base + STM32_DMA3_CCR(chan->id)) & ~CCR_EN; + + writel_relaxed(ccr |= CCR_RESET, ddata->base + STM32_DMA3_CCR(chan->id)); +} + +static int stm32_dma3_chan_stop(struct stm32_dma3_chan *chan) +{ + struct stm32_dma3_ddata *ddata = to_stm32_dma3_ddata(chan); + u32 ccr; + int ret = 0; + + chan->dma_status = DMA_COMPLETE; + + /* Disable interrupts */ + ccr = readl_relaxed(ddata->base + STM32_DMA3_CCR(chan->id)); + writel_relaxed(ccr & ~(CCR_ALLIE | CCR_EN), ddata->base + STM32_DMA3_CCR(chan->id)); + + if (!(ccr & CCR_SUSP) && (ccr & CCR_EN)) { + /* Suspend the channel */ + ret = stm32_dma3_chan_suspend(chan, true); + if (ret) + dev_warn(chan2dev(chan), "%s: timeout, data might be lost\n", __func__); + } + + /* + * Reset the channel: this causes the reset of the FIFO and the reset of the channel + * internal state, the reset of CCR_EN and CCR_SUSP bits. + */ + stm32_dma3_chan_reset(chan); + + return ret; +} + +static void stm32_dma3_chan_complete(struct stm32_dma3_chan *chan) +{ + if (!chan->swdesc) + return; + + vchan_cookie_complete(&chan->swdesc->vdesc); + chan->swdesc = NULL; + stm32_dma3_chan_start(chan); +} + +static irqreturn_t stm32_dma3_chan_irq(int irq, void *devid) +{ + struct stm32_dma3_chan *chan = devid; + struct stm32_dma3_ddata *ddata = to_stm32_dma3_ddata(chan); + u32 misr, csr, ccr; + + spin_lock(&chan->vchan.lock); + + misr = readl_relaxed(ddata->base + STM32_DMA3_MISR); + if (!(misr & MISR_MIS(chan->id))) { + spin_unlock(&chan->vchan.lock); + return IRQ_NONE; + } + + csr = readl_relaxed(ddata->base + STM32_DMA3_CSR(chan->id)); + ccr = readl_relaxed(ddata->base + STM32_DMA3_CCR(chan->id)) & CCR_ALLIE; + + if (csr & CSR_TCF && ccr & CCR_TCIE) { + if (chan->swdesc->cyclic) + vchan_cyclic_callback(&chan->swdesc->vdesc); + else + stm32_dma3_chan_complete(chan); + } + + if (csr & CSR_USEF && ccr & CCR_USEIE) { + dev_err(chan2dev(chan), "User setting error\n"); + chan->dma_status = DMA_ERROR; + /* CCR.EN automatically cleared by HW */ + stm32_dma3_check_user_setting(chan); + stm32_dma3_chan_reset(chan); + } + + if (csr & CSR_ULEF && ccr & CCR_ULEIE) { + dev_err(chan2dev(chan), "Update link transfer error\n"); + chan->dma_status = DMA_ERROR; + /* CCR.EN automatically cleared by HW */ + stm32_dma3_chan_reset(chan); + } + + if (csr & CSR_DTEF && ccr & CCR_DTEIE) { + dev_err(chan2dev(chan), "Data transfer error\n"); + chan->dma_status = DMA_ERROR; + /* CCR.EN automatically cleared by HW */ + stm32_dma3_chan_reset(chan); + } + + /* + * Half Transfer Interrupt may be disabled but Half Transfer Flag can be set, + * ensure HTF flag to be cleared, with other flags. + */ + csr &= (ccr | CCR_HTIE); + + if (csr) + writel_relaxed(csr, ddata->base + STM32_DMA3_CFCR(chan->id)); + + spin_unlock(&chan->vchan.lock); + + return IRQ_HANDLED; +} + +static int stm32_dma3_alloc_chan_resources(struct dma_chan *c) +{ + struct stm32_dma3_chan *chan = to_stm32_dma3_chan(c); + struct stm32_dma3_ddata *ddata = to_stm32_dma3_ddata(chan); + u32 id = chan->id, csemcr, ccid; + int ret; + + ret = pm_runtime_resume_and_get(ddata->dma_dev.dev); + if (ret < 0) + return ret; + + /* Ensure the channel is free */ + if (chan->semaphore_mode && + readl_relaxed(ddata->base + STM32_DMA3_CSEMCR(chan->id)) & CSEMCR_SEM_MUTEX) { + ret = -EBUSY; + goto err_put_sync; + } + + chan->lli_pool = dmam_pool_create(dev_name(&c->dev->device), c->device->dev, + sizeof(struct stm32_dma3_hwdesc), + __alignof__(struct stm32_dma3_hwdesc), SZ_64K); + if (!chan->lli_pool) { + dev_err(chan2dev(chan), "Failed to create LLI pool\n"); + ret = -ENOMEM; + goto err_put_sync; + } + + /* Take the channel semaphore */ + if (chan->semaphore_mode) { + writel_relaxed(CSEMCR_SEM_MUTEX, ddata->base + STM32_DMA3_CSEMCR(id)); + csemcr = readl_relaxed(ddata->base + STM32_DMA3_CSEMCR(id)); + ccid = FIELD_GET(CSEMCR_SEM_CCID, csemcr); + /* Check that the channel is well taken */ + if (ccid != CCIDCFGR_CID1) { + dev_err(chan2dev(chan), "Not under CID1 control (in-use by CID%d)\n", ccid); + ret = -EPERM; + goto err_pool_destroy; + } + dev_dbg(chan2dev(chan), "Under CID1 control (semcr=0x%08x)\n", csemcr); + } + + return 0; + +err_pool_destroy: + dmam_pool_destroy(chan->lli_pool); + chan->lli_pool = NULL; + +err_put_sync: + pm_runtime_put_sync(ddata->dma_dev.dev); + + return ret; +} + +static void stm32_dma3_free_chan_resources(struct dma_chan *c) +{ + struct stm32_dma3_chan *chan = to_stm32_dma3_chan(c); + struct stm32_dma3_ddata *ddata = to_stm32_dma3_ddata(chan); + unsigned long flags; + + /* Ensure channel is in idle state */ + spin_lock_irqsave(&chan->vchan.lock, flags); + stm32_dma3_chan_stop(chan); + chan->swdesc = NULL; + spin_unlock_irqrestore(&chan->vchan.lock, flags); + + vchan_free_chan_resources(to_virt_chan(c)); + + dmam_pool_destroy(chan->lli_pool); + chan->lli_pool = NULL; + + /* Release the channel semaphore */ + if (chan->semaphore_mode) + writel_relaxed(0, ddata->base + STM32_DMA3_CSEMCR(chan->id)); + + pm_runtime_put_sync(ddata->dma_dev.dev); + + /* Reset configuration */ + memset(&chan->dt_config, 0, sizeof(chan->dt_config)); + memset(&chan->dma_config, 0, sizeof(chan->dma_config)); +} + +static struct dma_async_tx_descriptor *stm32_dma3_prep_slave_sg(struct dma_chan *c, + struct scatterlist *sgl, + unsigned int sg_len, + enum dma_transfer_direction dir, + unsigned long flags, void *context) +{ + struct stm32_dma3_chan *chan = to_stm32_dma3_chan(c); + struct stm32_dma3_swdesc *swdesc; + struct scatterlist *sg; + size_t len; + dma_addr_t sg_addr, dev_addr, src, dst; + u32 i, j, count, ctr1, ctr2; + int ret; + + count = sg_len; + for_each_sg(sgl, sg, sg_len, i) { + len = sg_dma_len(sg); + if (len > STM32_DMA3_MAX_BLOCK_SIZE) + count += DIV_ROUND_UP(len, STM32_DMA3_MAX_BLOCK_SIZE) - 1; + } + + swdesc = stm32_dma3_chan_desc_alloc(chan, count); + if (!swdesc) + return NULL; + + /* sg_len and i correspond to the initial sgl; count and j correspond to the hwdesc LL */ + j = 0; + for_each_sg(sgl, sg, sg_len, i) { + sg_addr = sg_dma_address(sg); + dev_addr = (dir == DMA_MEM_TO_DEV) ? chan->dma_config.dst_addr : + chan->dma_config.src_addr; + len = sg_dma_len(sg); + + do { + size_t chunk = min_t(size_t, len, STM32_DMA3_MAX_BLOCK_SIZE); + + if (dir == DMA_MEM_TO_DEV) { + src = sg_addr; + dst = dev_addr; + + ret = stm32_dma3_chan_prep_hw(chan, dir, &swdesc->ccr, &ctr1, &ctr2, + src, dst, chunk); + + if (FIELD_GET(CTR1_DINC, ctr1)) + dev_addr += chunk; + } else { /* (dir == DMA_DEV_TO_MEM || dir == DMA_MEM_TO_MEM) */ + src = dev_addr; + dst = sg_addr; + + ret = stm32_dma3_chan_prep_hw(chan, dir, &swdesc->ccr, &ctr1, &ctr2, + src, dst, chunk); + + if (FIELD_GET(CTR1_SINC, ctr1)) + dev_addr += chunk; + } + + if (ret) + goto err_desc_free; + + stm32_dma3_chan_prep_hwdesc(chan, swdesc, j, src, dst, chunk, + ctr1, ctr2, j == (count - 1), false); + + sg_addr += chunk; + len -= chunk; + j++; + } while (len); + } + + /* Enable Error interrupts */ + swdesc->ccr |= CCR_USEIE | CCR_ULEIE | CCR_DTEIE; + /* Enable Transfer state interrupts */ + swdesc->ccr |= CCR_TCIE; + + swdesc->cyclic = false; + + return vchan_tx_prep(&chan->vchan, &swdesc->vdesc, flags); + +err_desc_free: + stm32_dma3_chan_desc_free(chan, swdesc); + + return NULL; +} + +static void stm32_dma3_caps(struct dma_chan *c, struct dma_slave_caps *caps) +{ + struct stm32_dma3_chan *chan = to_stm32_dma3_chan(c); + + if (!chan->fifo_size) { + caps->max_burst = 0; + caps->src_addr_widths &= ~BIT(DMA_SLAVE_BUSWIDTH_8_BYTES); + caps->dst_addr_widths &= ~BIT(DMA_SLAVE_BUSWIDTH_8_BYTES); + } else { + /* Burst transfer should not exceed half of the fifo size */ + caps->max_burst = chan->max_burst; + if (caps->max_burst < DMA_SLAVE_BUSWIDTH_8_BYTES) { + caps->src_addr_widths &= ~BIT(DMA_SLAVE_BUSWIDTH_8_BYTES); + caps->dst_addr_widths &= ~BIT(DMA_SLAVE_BUSWIDTH_8_BYTES); + } + } +} + +static int stm32_dma3_config(struct dma_chan *c, struct dma_slave_config *config) +{ + struct stm32_dma3_chan *chan = to_stm32_dma3_chan(c); + + memcpy(&chan->dma_config, config, sizeof(*config)); + + return 0; +} + +static int stm32_dma3_terminate_all(struct dma_chan *c) +{ + struct stm32_dma3_chan *chan = to_stm32_dma3_chan(c); + unsigned long flags; + LIST_HEAD(head); + + spin_lock_irqsave(&chan->vchan.lock, flags); + + if (chan->swdesc) { + vchan_terminate_vdesc(&chan->swdesc->vdesc); + chan->swdesc = NULL; + } + + stm32_dma3_chan_stop(chan); + + vchan_get_all_descriptors(&chan->vchan, &head); + + spin_unlock_irqrestore(&chan->vchan.lock, flags); + vchan_dma_desc_free_list(&chan->vchan, &head); + + dev_dbg(chan2dev(chan), "vchan %pK: terminated\n", &chan->vchan); + + return 0; +} + +static void stm32_dma3_synchronize(struct dma_chan *c) +{ + struct stm32_dma3_chan *chan = to_stm32_dma3_chan(c); + + vchan_synchronize(&chan->vchan); +} + +static void stm32_dma3_issue_pending(struct dma_chan *c) +{ + struct stm32_dma3_chan *chan = to_stm32_dma3_chan(c); + unsigned long flags; + + spin_lock_irqsave(&chan->vchan.lock, flags); + + if (vchan_issue_pending(&chan->vchan) && !chan->swdesc) { + dev_dbg(chan2dev(chan), "vchan %pK: issued\n", &chan->vchan); + stm32_dma3_chan_start(chan); + } + + spin_unlock_irqrestore(&chan->vchan.lock, flags); +} + +static bool stm32_dma3_filter_fn(struct dma_chan *c, void *fn_param) +{ + struct stm32_dma3_chan *chan = to_stm32_dma3_chan(c); + struct stm32_dma3_ddata *ddata = to_stm32_dma3_ddata(chan); + struct stm32_dma3_dt_conf *conf = fn_param; + u32 mask, semcr; + int ret; + + dev_dbg(c->device->dev, "%s(%s): req_line=%d ch_conf=%08x tr_conf=%08x\n", + __func__, dma_chan_name(c), conf->req_line, conf->ch_conf, conf->tr_conf); + + if (!of_property_read_u32(c->device->dev->of_node, "dma-channel-mask", &mask)) + if (!(mask & BIT(chan->id))) + return false; + + ret = pm_runtime_resume_and_get(ddata->dma_dev.dev); + if (ret < 0) + return false; + semcr = readl_relaxed(ddata->base + STM32_DMA3_CSEMCR(chan->id)); + pm_runtime_put_sync(ddata->dma_dev.dev); + + /* Check if chan is free */ + if (semcr & CSEMCR_SEM_MUTEX) + return false; + + /* Check if chan fifo fits well */ + if (FIELD_GET(STM32_DMA3_DT_FIFO, conf->ch_conf) != chan->fifo_size) + return false; + + return true; +} + +static struct dma_chan *stm32_dma3_of_xlate(struct of_phandle_args *dma_spec, struct of_dma *ofdma) +{ + struct stm32_dma3_ddata *ddata = ofdma->of_dma_data; + dma_cap_mask_t mask = ddata->dma_dev.cap_mask; + struct stm32_dma3_dt_conf conf; + struct stm32_dma3_chan *chan; + struct dma_chan *c; + + if (dma_spec->args_count < 3) { + dev_err(ddata->dma_dev.dev, "Invalid args count\n"); + return NULL; + } + + conf.req_line = dma_spec->args[0]; + conf.ch_conf = dma_spec->args[1]; + conf.tr_conf = dma_spec->args[2]; + + if (conf.req_line >= ddata->dma_requests) { + dev_err(ddata->dma_dev.dev, "Invalid request line\n"); + return NULL; + } + + /* Request dma channel among the generic dma controller list */ + c = dma_request_channel(mask, stm32_dma3_filter_fn, &conf); + if (!c) { + dev_err(ddata->dma_dev.dev, "No suitable channel found\n"); + return NULL; + } + + chan = to_stm32_dma3_chan(c); + chan->dt_config = conf; + + return c; +} + +static u32 stm32_dma3_check_rif(struct stm32_dma3_ddata *ddata) +{ + u32 chan_reserved, mask = 0, i, ccidcfgr, invalid_cid = 0; + + /* Reserve Secure channels */ + chan_reserved = readl_relaxed(ddata->base + STM32_DMA3_SECCFGR); + + /* + * CID filtering must be configured to ensure that the DMA3 channel will inherit the CID of + * the processor which is configuring and using the given channel. + * In case CID filtering is not configured, dma-channel-mask property can be used to + * specify available DMA channels to the kernel. + */ + of_property_read_u32(ddata->dma_dev.dev->of_node, "dma-channel-mask", &mask); + + /* Reserve !CID-filtered not in dma-channel-mask, static CID != CID1, CID1 not allowed */ + for (i = 0; i < ddata->dma_channels; i++) { + ccidcfgr = readl_relaxed(ddata->base + STM32_DMA3_CCIDCFGR(i)); + + if (!(ccidcfgr & CCIDCFGR_CFEN)) { /* !CID-filtered */ + invalid_cid |= BIT(i); + if (!(mask & BIT(i))) /* Not in dma-channel-mask */ + chan_reserved |= BIT(i); + } else { /* CID-filtered */ + if (!(ccidcfgr & CCIDCFGR_SEM_EN)) { /* Static CID mode */ + if (FIELD_GET(CCIDCFGR_SCID, ccidcfgr) != CCIDCFGR_CID1) + chan_reserved |= BIT(i); + } else { /* Semaphore mode */ + if (!FIELD_GET(CCIDCFGR_SEM_WLIST_CID1, ccidcfgr)) + chan_reserved |= BIT(i); + ddata->chans[i].semaphore_mode = true; + } + } + dev_dbg(ddata->dma_dev.dev, "chan%d: %s mode, %s\n", i, + !(ccidcfgr & CCIDCFGR_CFEN) ? "!CID-filtered" : + ddata->chans[i].semaphore_mode ? "Semaphore" : "Static CID", + (chan_reserved & BIT(i)) ? "denied" : + mask & BIT(i) ? "force allowed" : "allowed"); + } + + if (invalid_cid) + dev_warn(ddata->dma_dev.dev, "chan%*pbl have invalid CID configuration\n", + ddata->dma_channels, &invalid_cid); + + return chan_reserved; +} + +static const struct of_device_id stm32_dma3_of_match[] = { + { .compatible = "st,stm32mp25-dma3", }, + { /* sentinel */ }, +}; +MODULE_DEVICE_TABLE(of, stm32_dma3_of_match); + +static int stm32_dma3_probe(struct platform_device *pdev) +{ + struct device_node *np = pdev->dev.of_node; + struct stm32_dma3_ddata *ddata; + struct reset_control *reset; + struct stm32_dma3_chan *chan; + struct dma_device *dma_dev; + u32 master_ports, chan_reserved, i, verr; + u64 hwcfgr; + int ret; + + ddata = devm_kzalloc(&pdev->dev, sizeof(*ddata), GFP_KERNEL); + if (!ddata) + return -ENOMEM; + platform_set_drvdata(pdev, ddata); + + dma_dev = &ddata->dma_dev; + + ddata->base = devm_platform_ioremap_resource(pdev, 0); + if (IS_ERR(ddata->base)) + return PTR_ERR(ddata->base); + + ddata->clk = devm_clk_get(&pdev->dev, NULL); + if (IS_ERR(ddata->clk)) + return dev_err_probe(&pdev->dev, PTR_ERR(ddata->clk), "Failed to get clk\n"); + + reset = devm_reset_control_get_optional(&pdev->dev, NULL); + if (IS_ERR(reset)) + return dev_err_probe(&pdev->dev, PTR_ERR(reset), "Failed to get reset\n"); + + ret = clk_prepare_enable(ddata->clk); + if (ret) + return dev_err_probe(&pdev->dev, ret, "Failed to enable clk\n"); + + reset_control_reset(reset); + + INIT_LIST_HEAD(&dma_dev->channels); + + dma_cap_set(DMA_SLAVE, dma_dev->cap_mask); + dma_cap_set(DMA_PRIVATE, dma_dev->cap_mask); + dma_dev->dev = &pdev->dev; + /* + * This controller supports up to 8-byte buswidth depending on the port used and the + * channel, and can only access address at even boundaries, multiple of the buswidth. + */ + dma_dev->copy_align = DMAENGINE_ALIGN_8_BYTES; + dma_dev->src_addr_widths = BIT(DMA_SLAVE_BUSWIDTH_1_BYTE) | + BIT(DMA_SLAVE_BUSWIDTH_2_BYTES) | + BIT(DMA_SLAVE_BUSWIDTH_4_BYTES) | + BIT(DMA_SLAVE_BUSWIDTH_8_BYTES); + dma_dev->dst_addr_widths = BIT(DMA_SLAVE_BUSWIDTH_1_BYTE) | + BIT(DMA_SLAVE_BUSWIDTH_2_BYTES) | + BIT(DMA_SLAVE_BUSWIDTH_4_BYTES) | + BIT(DMA_SLAVE_BUSWIDTH_8_BYTES); + dma_dev->directions = BIT(DMA_DEV_TO_MEM) | BIT(DMA_MEM_TO_DEV) | BIT(DMA_MEM_TO_MEM); + + dma_dev->descriptor_reuse = true; + dma_dev->max_sg_burst = STM32_DMA3_MAX_SEG_SIZE; + dma_dev->residue_granularity = DMA_RESIDUE_GRANULARITY_DESCRIPTOR; + dma_dev->device_alloc_chan_resources = stm32_dma3_alloc_chan_resources; + dma_dev->device_free_chan_resources = stm32_dma3_free_chan_resources; + dma_dev->device_prep_slave_sg = stm32_dma3_prep_slave_sg; + dma_dev->device_caps = stm32_dma3_caps; + dma_dev->device_config = stm32_dma3_config; + dma_dev->device_terminate_all = stm32_dma3_terminate_all; + dma_dev->device_synchronize = stm32_dma3_synchronize; + dma_dev->device_tx_status = dma_cookie_status; + dma_dev->device_issue_pending = stm32_dma3_issue_pending; + + /* if dma_channels is not modified, get it from hwcfgr1 */ + if (of_property_read_u32(np, "dma-channels", &ddata->dma_channels)) { + hwcfgr = readl_relaxed(ddata->base + STM32_DMA3_HWCFGR1); + ddata->dma_channels = FIELD_GET(G_NUM_CHANNELS, hwcfgr); + } + + /* if dma_requests is not modified, get it from hwcfgr2 */ + if (of_property_read_u32(np, "dma-requests", &ddata->dma_requests)) { + hwcfgr = readl_relaxed(ddata->base + STM32_DMA3_HWCFGR2); + ddata->dma_requests = FIELD_GET(G_MAX_REQ_ID, hwcfgr) + 1; + } + + /* G_MASTER_PORTS, G_M0_DATA_WIDTH_ENC, G_M1_DATA_WIDTH_ENC in HWCFGR1 */ + hwcfgr = readl_relaxed(ddata->base + STM32_DMA3_HWCFGR1); + master_ports = FIELD_GET(G_MASTER_PORTS, hwcfgr); + + ddata->ports_max_dw[0] = FIELD_GET(G_M0_DATA_WIDTH_ENC, hwcfgr); + if (master_ports == AXI64 || master_ports == AHB32) /* Single master port */ + ddata->ports_max_dw[1] = DW_INVALID; + else /* Dual master ports */ + ddata->ports_max_dw[1] = FIELD_GET(G_M1_DATA_WIDTH_ENC, hwcfgr); + + ddata->chans = devm_kcalloc(&pdev->dev, ddata->dma_channels, sizeof(*ddata->chans), + GFP_KERNEL); + if (!ddata->chans) { + ret = -ENOMEM; + goto err_clk_disable; + } + + chan_reserved = stm32_dma3_check_rif(ddata); + + if (chan_reserved == GENMASK(ddata->dma_channels - 1, 0)) { + ret = -ENODEV; + dev_err_probe(&pdev->dev, ret, "No channel available, abort registration\n"); + goto err_clk_disable; + } + + /* G_FIFO_SIZE x=0..7 in HWCFGR3 and G_FIFO_SIZE x=8..15 in HWCFGR4 */ + hwcfgr = readl_relaxed(ddata->base + STM32_DMA3_HWCFGR3); + hwcfgr |= ((u64)readl_relaxed(ddata->base + STM32_DMA3_HWCFGR4)) << 32; + + for (i = 0; i < ddata->dma_channels; i++) { + if (chan_reserved & BIT(i)) + continue; + + chan = &ddata->chans[i]; + chan->id = i; + chan->fifo_size = get_chan_hwcfg(i, G_FIFO_SIZE(i), hwcfgr); + /* If chan->fifo_size > 0 then half of the fifo size, else no burst when no FIFO */ + chan->max_burst = (chan->fifo_size) ? (1 << (chan->fifo_size + 1)) / 2 : 0; + chan->vchan.desc_free = stm32_dma3_chan_vdesc_free; + + vchan_init(&chan->vchan, dma_dev); + } + + ret = dmaenginem_async_device_register(dma_dev); + if (ret) + goto err_clk_disable; + + for (i = 0; i < ddata->dma_channels; i++) { + if (chan_reserved & BIT(i)) + continue; + + ret = platform_get_irq(pdev, i); + if (ret < 0) + goto err_clk_disable; + + chan = &ddata->chans[i]; + chan->irq = ret; + + ret = devm_request_irq(&pdev->dev, chan->irq, stm32_dma3_chan_irq, 0, + dev_name(chan2dev(chan)), chan); + if (ret) { + dev_err_probe(&pdev->dev, ret, "Failed to request channel %s IRQ\n", + dev_name(chan2dev(chan))); + goto err_clk_disable; + } + } + + ret = of_dma_controller_register(np, stm32_dma3_of_xlate, ddata); + if (ret) { + dev_err_probe(&pdev->dev, ret, "Failed to register controller\n"); + goto err_clk_disable; + } + + verr = readl_relaxed(ddata->base + STM32_DMA3_VERR); + + pm_runtime_set_active(&pdev->dev); + pm_runtime_enable(&pdev->dev); + pm_runtime_get_noresume(&pdev->dev); + pm_runtime_put(&pdev->dev); + + dev_info(&pdev->dev, "STM32 DMA3 registered rev:%lu.%lu\n", + FIELD_GET(VERR_MAJREV, verr), FIELD_GET(VERR_MINREV, verr)); + + return 0; + +err_clk_disable: + clk_disable_unprepare(ddata->clk); + + return ret; +} + +static void stm32_dma3_remove(struct platform_device *pdev) +{ + pm_runtime_disable(&pdev->dev); +} + +static int stm32_dma3_runtime_suspend(struct device *dev) +{ + struct stm32_dma3_ddata *ddata = dev_get_drvdata(dev); + + clk_disable_unprepare(ddata->clk); + + return 0; +} + +static int stm32_dma3_runtime_resume(struct device *dev) +{ + struct stm32_dma3_ddata *ddata = dev_get_drvdata(dev); + int ret; + + ret = clk_prepare_enable(ddata->clk); + if (ret) + dev_err(dev, "Failed to enable clk: %d\n", ret); + + return ret; +} + +static const struct dev_pm_ops stm32_dma3_pm_ops = { + SYSTEM_SLEEP_PM_OPS(pm_runtime_force_suspend, pm_runtime_force_resume) + RUNTIME_PM_OPS(stm32_dma3_runtime_suspend, stm32_dma3_runtime_resume, NULL) +}; + +static struct platform_driver stm32_dma3_driver = { + .probe = stm32_dma3_probe, + .remove_new = stm32_dma3_remove, + .driver = { + .name = "stm32-dma3", + .of_match_table = stm32_dma3_of_match, + .pm = pm_ptr(&stm32_dma3_pm_ops), + }, +}; + +static int __init stm32_dma3_init(void) +{ + return platform_driver_register(&stm32_dma3_driver); +} + +subsys_initcall(stm32_dma3_init); + +MODULE_DESCRIPTION("STM32 DMA3 controller driver"); +MODULE_AUTHOR("Amelie Delaunay "); +MODULE_LICENSE("GPL"); -- 2.25.1