From patchwork Thu Sep 24 18:25:37 2009 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Sergei Shtylyov X-Patchwork-Id: 49957 Received: from bear.ext.ti.com (bear.ext.ti.com [192.94.94.41]) by demeter.kernel.org (8.14.2/8.14.2) with ESMTP id n8OIQDhF027498 for ; Thu, 24 Sep 2009 18:26:14 GMT Received: from dlep35.itg.ti.com ([157.170.170.118]) by bear.ext.ti.com (8.13.7/8.13.7) with ESMTP id n8OINaaN004925 (version=TLSv1/SSLv3 cipher=DHE-RSA-AES256-SHA bits=256 verify=NO); Thu, 24 Sep 2009 13:23:37 -0500 Received: from linux.omap.com (localhost [127.0.0.1]) by dlep35.itg.ti.com (8.13.7/8.13.7) with ESMTP id n8OINZWG026126; Thu, 24 Sep 2009 13:23:35 -0500 (CDT) Received: from linux.omap.com (localhost [127.0.0.1]) by linux.omap.com (Postfix) with ESMTP id D754780627; Thu, 24 Sep 2009 13:23:34 -0500 (CDT) X-Original-To: davinci-linux-open-source@linux.davincidsp.com Delivered-To: davinci-linux-open-source@linux.davincidsp.com Received: from dflp53.itg.ti.com (dflp53.itg.ti.com [128.247.5.6]) by linux.omap.com (Postfix) with ESMTP id 5210D80626 for ; Thu, 24 Sep 2009 13:23:31 -0500 (CDT) Received: from medina.ext.ti.com (localhost [127.0.0.1]) by dflp53.itg.ti.com (8.13.8/8.13.8) with ESMTP id n8OINUc6016387 for ; Thu, 24 Sep 2009 13:23:30 -0500 (CDT) Received: from mail174-va3-R.bigfish.com (mail-va3.bigfish.com [216.32.180.114]) by medina.ext.ti.com (8.13.7/8.13.7) with ESMTP id n8OINUg4000915 (version=TLSv1/SSLv3 cipher=DHE-RSA-AES256-SHA bits=256 verify=FAIL) for ; Thu, 24 Sep 2009 13:23:30 -0500 Received: from mail174-va3 (localhost.localdomain [127.0.0.1]) by mail174-va3-R.bigfish.com (Postfix) with ESMTP id 1CA225383CB for ; Thu, 24 Sep 2009 18:23:30 +0000 (UTC) X-SpamScore: -5 X-BigFish: vps-5(zcb8kz1403R18c1J655Nc8kzz1202hzzz2dh6bh259o65h) X-Spam-TCS-SCL: 4:0 X-FB-SS: 5, X-MS-Exchange-Organization-Antispam-Report: OrigIP: 63.81.120.155; Service: EHS Received: by mail174-va3 (MessageSwitch) id 125381658765571_2530; Thu, 24 Sep 2009 18:23:07 +0000 (UCT) Received: from imap.sh.mvista.com (unknown [63.81.120.155]) by mail174-va3.bigfish.com (Postfix) with ESMTP id 726C2127004D for ; Thu, 24 Sep 2009 18:23:06 +0000 (UTC) Received: from wasted.dev.rtsoft.ru (unknown [10.150.0.9]) by imap.sh.mvista.com (Postfix) with ESMTP id CDE3A3EC9; Thu, 24 Sep 2009 11:23:03 -0700 (PDT) From: Sergei Shtylyov Organization: MontaVista Software Inc. To: khilman@deeprootsystems.com Date: Thu, 24 Sep 2009 22:25:37 +0400 User-Agent: KMail/1.5 MIME-Version: 1.0 Content-Disposition: inline Message-Id: <200909242225.37274.sshtylyov@ru.mvista.com> Cc: davinci-linux-open-source@linux.davincidsp.com Subject: [PATCH 1/3] DA8xx: add support for CPPI 4.1 (take 4) X-BeenThere: davinci-linux-open-source@linux.davincidsp.com X-Mailman-Version: 2.1.4 Precedence: list List-Id: davinci-linux-open-source.linux.davincidsp.com List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Sender: davinci-linux-open-source-bounces@linux.davincidsp.com Errors-To: davinci-linux-open-source-bounces@linux.davincidsp.com Add support for Texas Instuments Communication Port Programming Interface 4.1 (CPPI 4.1) used on OMAP-L1x/DA8xx. At this moment, only the DMA controller and queue manager are supported. Support for the buffer manager is lacking but these chips don't have it anyway. Signed-off-by: Sergei Shtylyov Signed-off-by: Sekhar Nori --- The patch is against the recent DaVinci tree. Changes since the previous take: - replaced DBG() macro with pr_debug() and so CPPI41_DEBUG macro with DEBUG; - replaced printk(KERN_ERR, ...) calls with pr_err(...); - added #include ; - added/changed TI's copyright by request from Sekhar Nori; - added Sekhar's signoff... arch/arm/mach-davinci/Kconfig | 6 arch/arm/mach-davinci/Makefile | 1 arch/arm/mach-davinci/cppi41.c | 795 ++++++++++++++++++++++++++++ arch/arm/mach-davinci/include/mach/cppi41.h | 718 +++++++++++++++++++++++++ 4 files changed, 1520 insertions(+) Index: linux-davinci/arch/arm/mach-davinci/Kconfig =================================================================== --- linux-davinci.orig/arch/arm/mach-davinci/Kconfig +++ linux-davinci/arch/arm/mach-davinci/Kconfig @@ -46,6 +46,12 @@ config ARCH_DAVINCI_DM365 select AINTC select ARCH_DAVINCI_DMx +config CPPI41 + bool "CPPI 4.1 support" + depends on ARCH_DAVINCI_DA8XX + help + Configure this option to include the CPPI 4.1 support. + comment "DaVinci Board Type" config MACH_DAVINCI_EVM Index: linux-davinci/arch/arm/mach-davinci/Makefile =================================================================== --- linux-davinci.orig/arch/arm/mach-davinci/Makefile +++ linux-davinci/arch/arm/mach-davinci/Makefile @@ -19,6 +19,7 @@ obj-$(CONFIG_ARCH_DAVINCI_DA850) obj-$(CONFIG_AINTC) += irq.o obj-$(CONFIG_CP_INTC) += cp_intc.o +obj-$(CONFIG_CPPI41) += cppi41.o # Board specific obj-$(CONFIG_MACH_DAVINCI_EVM) += board-dm644x-evm.o Index: linux-davinci/arch/arm/mach-davinci/cppi41.c =================================================================== --- /dev/null +++ linux-davinci/arch/arm/mach-davinci/cppi41.c @@ -0,0 +1,795 @@ +/* + * CPPI 4.1 support + * + * Copyright (C) 2008-2009 MontaVista Software, Inc. + * + * Based on the PAL CPPI 4.1 implementation + * Copyright (C) 2007, Texas Instruments Inc. http://www.ti.com/ + * + * This file contains the main implementation for CPPI 4.1 common peripherals, + * including the DMA Controllers and the Queue Managers. + * + * This program is free software; you can distribute it and/or modify it + * under the terms of the GNU General Public License (Version 2) as + * published by the Free Software Foundation. + * + * This program is distributed in the hope it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License + * for more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 59 Temple Place - Suite 330, Boston MA 02111-1307, USA. + * + */ + +#undef DEBUG + +#include +#include +#include +#include +#include + +#include + +static struct { + void *virt_addr; + dma_addr_t phys_addr; +} linking_ram[CPPI41_NUM_QUEUE_MGR]; + +static u32 *allocated_queues[CPPI41_NUM_QUEUE_MGR]; + +/* First 32 packet descriptors are reserved for unallocated memory regions. */ +static u32 next_desc_index[CPPI41_NUM_QUEUE_MGR] = { 1 << 5 }; +static u8 next_mem_rgn[CPPI41_NUM_QUEUE_MGR]; + +static struct { + size_t rgn_size; + void *virt_addr; + dma_addr_t phys_addr; + struct cppi41_queue_obj queue_obj; + u8 mem_rgn; +} dma_teardown[CPPI41_NUM_DMA_BLOCK]; + +/******************** CPPI 4.1 Functions (External Interface) *****************/ + +int __init cppi41_queue_mgr_init(u8 q_mgr, dma_addr_t rgn0_base, u16 rgn0_size) +{ + void __iomem *q_mgr_regs; + void *ptr; + + if (q_mgr >= cppi41_num_queue_mgr) + return -EINVAL; + + q_mgr_regs = cppi41_queue_mgr[q_mgr].q_mgr_rgn_base; + + __raw_writel(rgn0_base, q_mgr_regs + QMGR_LINKING_RAM_RGN0_BASE_REG); + pr_debug("Linking RAM region 0 base @ %p, value: %x\n", + q_mgr_regs + QMGR_LINKING_RAM_RGN0_BASE_REG, + __raw_readl(q_mgr_regs + QMGR_LINKING_RAM_RGN0_BASE_REG)); + + __raw_writel(rgn0_size, q_mgr_regs + QMGR_LINKING_RAM_RGN0_SIZE_REG); + pr_debug("Linking RAM region 0 size @ %p, value: %x\n", + q_mgr_regs + QMGR_LINKING_RAM_RGN0_SIZE_REG, + __raw_readl(q_mgr_regs + QMGR_LINKING_RAM_RGN0_SIZE_REG)); + + ptr = dma_alloc_coherent(NULL, 0x10000 - rgn0_size * 4, + &linking_ram[q_mgr].phys_addr, + GFP_KERNEL | GFP_DMA); + if (ptr == NULL) { + pr_err("ERROR: %s: Unable to allocate linking RAM.\n", + __func__); + return -ENOMEM; + } + linking_ram[q_mgr].virt_addr = ptr; + + __raw_writel(linking_ram[q_mgr].phys_addr, + q_mgr_regs + QMGR_LINKING_RAM_RGN1_BASE_REG); + pr_debug("Linking RAM region 1 base @ %p, value: %x\n", + q_mgr_regs + QMGR_LINKING_RAM_RGN1_BASE_REG, + __raw_readl(q_mgr_regs + QMGR_LINKING_RAM_RGN1_BASE_REG)); + + ptr = kzalloc(BITS_TO_LONGS(cppi41_queue_mgr[q_mgr].num_queue), + GFP_KERNEL); + if (ptr == NULL) { + pr_err("ERROR: %s: Unable to allocate queue bitmap.\n", + __func__); + dma_free_coherent(NULL, 0x10000 - rgn0_size * 4, + linking_ram[q_mgr].virt_addr, + linking_ram[q_mgr].phys_addr); + return -ENOMEM; + } + allocated_queues[q_mgr] = ptr; + + return 0; +} + +int __init cppi41_dma_ctrlr_init(u8 dma_num, u8 q_mgr, u8 num_order) +{ + const struct cppi41_dma_block *dma_block; + struct cppi41_teardown_desc *curr_td; + unsigned num_desc = 1 << num_order; + dma_addr_t td_addr; + void *ptr; + int error, i; + u16 q_num; + + if (dma_num >= cppi41_num_dma_block || + q_mgr >= cppi41_num_queue_mgr) + return -EINVAL; + + error = cppi41_queue_alloc(CPPI41_FREE_DESC_QUEUE | + CPPI41_UNASSIGNED_QUEUE, q_mgr, &q_num); + if (error) { + pr_err("ERROR: %s: Unable to allocate teardown descriptor " + "queue.\n", __func__); + return error; + } + pr_debug("Teardown descriptor queue %d in queue manager 0 allocated\n", + q_num); + + /* + * Tell the hardware about the Teardown descriptor + * queue manager and queue number. + */ + dma_block = &cppi41_dma_block[dma_num]; + __raw_writel((q_mgr << DMA_TD_DESC_QMGR_SHIFT) | + (q_num << DMA_TD_DESC_QNUM_SHIFT), + dma_block->global_ctrl_base + + DMA_TEARDOWN_FREE_DESC_CTRL_REG); + pr_debug("Teardown free descriptor control @ %p, value: %x\n", + dma_block->global_ctrl_base + DMA_TEARDOWN_FREE_DESC_CTRL_REG, + __raw_readl(dma_block->global_ctrl_base + + DMA_TEARDOWN_FREE_DESC_CTRL_REG)); + + dma_teardown[dma_num].rgn_size = num_desc * + sizeof(struct cppi41_teardown_desc); + + /* Pre-allocate teardown descriptors. */ + ptr = dma_alloc_coherent(NULL, dma_teardown[dma_num].rgn_size, + &dma_teardown[dma_num].phys_addr, + GFP_KERNEL | GFP_DMA); + if (ptr == NULL) { + pr_err("ERROR: %s: Unable to allocate teardown descriptors.\n", + __func__); + error = -ENOMEM; + goto free_queue; + } + dma_teardown[dma_num].virt_addr = ptr; + + error = cppi41_mem_rgn_alloc(q_mgr, dma_teardown[dma_num].phys_addr, 5, + num_order, &dma_teardown[dma_num].mem_rgn); + if (error) { + pr_err("ERROR: %s: Unable to allocate queue manager memory " + "region for teardown descriptors.\n", __func__); + goto free_mem; + } + + error = cppi41_queue_init(&dma_teardown[dma_num].queue_obj, 0, q_num); + if (error) { + pr_err("ERROR: %s: Unable to initialize teardown free " + "descriptor queue.\n", __func__); + goto free_rgn; + } + + /* + * Push all teardown descriptors to the free teardown queue + * for the CPPI 4.1 system. + */ + curr_td = dma_teardown[dma_num].virt_addr; + td_addr = dma_teardown[dma_num].phys_addr; + + for (i = 0; i < num_desc; i++) { + cppi41_queue_push(&dma_teardown[dma_num].queue_obj, td_addr, + sizeof(*curr_td), 0); + td_addr += sizeof(*curr_td); + } + +free_rgn: + cppi41_mem_rgn_free(q_mgr, dma_teardown[dma_num].mem_rgn); +free_mem: + dma_free_coherent(NULL, dma_teardown[dma_num].rgn_size, + dma_teardown[dma_num].virt_addr, + dma_teardown[dma_num].phys_addr); +free_queue: + cppi41_queue_free(q_mgr, q_num); + return error; +} + +int __init cppi41_dma_sched_init(u8 dma_num, const u8 *sched_tbl, u16 tbl_size) +{ + const struct cppi41_dma_block *dma_block; + unsigned num_reg; + int i, j, k; + u32 val; + + if (dma_num >= cppi41_num_dma_block || + !tbl_size || tbl_size > 0x100 || sched_tbl == NULL) + return -EINVAL; + + /* Initialize the DMA scheduler. */ + dma_block = &cppi41_dma_block[dma_num]; + num_reg = (tbl_size + 3) / 4; + for (k = i = 0; i < num_reg; i++) { + for (val = j = 0; j < 4; j++, k++) { + val >>= 8; + if (k < tbl_size) + val |= sched_tbl[k] << 24; + } + + __raw_writel(val, dma_block->sched_table_base + + DMA_SCHED_TABLE_WORD_REG(i)); + pr_debug("DMA scheduler table @ %p, value written: %x\n", + dma_block->sched_table_base + + DMA_SCHED_TABLE_WORD_REG(i), val); + } + + __raw_writel((tbl_size - 1) << DMA_SCHED_LAST_ENTRY_SHIFT | + DMA_SCHED_ENABLE_MASK, + dma_block->sched_ctrl_base + DMA_SCHED_CTRL_REG); + pr_debug("DMA scheduler control @ %p, value: %x\n", + dma_block->sched_ctrl_base + DMA_SCHED_CTRL_REG, + __raw_readl(dma_block->sched_ctrl_base + DMA_SCHED_CTRL_REG)); + + return 0; +} + +/* + * cppi41_mem_rgn_alloc - allocate a memory region within the queue manager + */ +int cppi41_mem_rgn_alloc(u8 q_mgr, dma_addr_t rgn_addr, u8 size_order, + u8 num_order, u8 *mem_rgn) +{ + void __iomem *desc_mem_regs; + u32 num_desc = 1 << num_order, index, ctrl; + int rgn; + + pr_debug("%s called with rgn_addr = %08x, size_order = %d, " + "num_order = %d\n", __func__, rgn_addr, size_order, num_order); + + if (q_mgr >= cppi41_num_queue_mgr || + size_order < 5 || size_order > 13 || + num_order < 5 || num_order > 12 || + (rgn_addr & ((1 << size_order) - 1))) + return -EINVAL; + + rgn = next_mem_rgn[q_mgr]; + index = next_desc_index[q_mgr]; + if (rgn >= CPPI41_MAX_MEM_RGN || index + num_desc > 0x4000) + return -ENOSPC; + + next_mem_rgn[q_mgr] = rgn + 1; + next_desc_index[q_mgr] = index + num_desc; + + desc_mem_regs = cppi41_queue_mgr[q_mgr].desc_mem_rgn_base; + + /* Write the base register */ + __raw_writel(rgn_addr, desc_mem_regs + QMGR_MEM_RGN_BASE_REG(rgn)); + pr_debug("Descriptor region base @ %p, value: %x\n", + desc_mem_regs + QMGR_MEM_RGN_BASE_REG(rgn), + __raw_readl(desc_mem_regs + QMGR_MEM_RGN_BASE_REG(rgn))); + + /* Write the control register */ + ctrl = ((index << QMGR_MEM_RGN_INDEX_SHIFT) & + QMGR_MEM_RGN_INDEX_MASK) | + (((size_order - 5) << QMGR_MEM_RGN_DESC_SIZE_SHIFT) & + QMGR_MEM_RGN_DESC_SIZE_MASK) | + (((num_order - 5) << QMGR_MEM_RGN_SIZE_SHIFT) & + QMGR_MEM_RGN_SIZE_MASK); + __raw_writel(ctrl, desc_mem_regs + QMGR_MEM_RGN_CTRL_REG(rgn)); + pr_debug("Descriptor region control @ %p, value: %x\n", + desc_mem_regs + QMGR_MEM_RGN_CTRL_REG(rgn), + __raw_readl(desc_mem_regs + QMGR_MEM_RGN_CTRL_REG(rgn))); + + *mem_rgn = rgn; + return 0; +} +EXPORT_SYMBOL(cppi41_mem_rgn_alloc); + +/* + * cppi41_mem_rgn_free - free the memory region within the queue manager + */ +int cppi41_mem_rgn_free(u8 q_mgr, u8 mem_rgn) +{ + void __iomem *desc_mem_regs; + + pr_debug("%s called.\n", __func__); + + if (q_mgr >= cppi41_num_queue_mgr || mem_rgn >= next_mem_rgn[q_mgr]) + return -EINVAL; + + desc_mem_regs = cppi41_queue_mgr[q_mgr].desc_mem_rgn_base; + + if (__raw_readl(desc_mem_regs + QMGR_MEM_RGN_BASE_REG(mem_rgn)) == 0) + return -ENOENT; + + __raw_writel(0, desc_mem_regs + QMGR_MEM_RGN_BASE_REG(mem_rgn)); + __raw_writel(0, desc_mem_regs + QMGR_MEM_RGN_CTRL_REG(mem_rgn)); + + return 0; +} +EXPORT_SYMBOL(cppi41_mem_rgn_free); + +/* + * cppi41_tx_ch_init - initialize a CPPI 4.1 Tx channel object + * + * Verify the channel info (range checking, etc.) and store the channel + * information within the object structure. + */ +int cppi41_tx_ch_init(struct cppi41_dma_ch_obj *tx_ch_obj, + u8 dma_num, u8 ch_num) +{ + if (dma_num >= cppi41_num_dma_block || + ch_num >= cppi41_dma_block[dma_num].num_tx_ch) + return -EINVAL; + + /* Populate the channel object structure */ + tx_ch_obj->base_addr = cppi41_dma_block[dma_num].ch_ctrl_stat_base + + DMA_CH_TX_GLOBAL_CFG_REG(ch_num); + tx_ch_obj->global_cfg = __raw_readl(tx_ch_obj->base_addr); + return 0; +} +EXPORT_SYMBOL(cppi41_tx_ch_init); + +/* + * cppi41_rx_ch_init - initialize a CPPI 4.1 Rx channel object + * + * Verify the channel info (range checking, etc.) and store the channel + * information within the object structure. + */ +int cppi41_rx_ch_init(struct cppi41_dma_ch_obj *rx_ch_obj, + u8 dma_num, u8 ch_num) +{ + if (dma_num >= cppi41_num_dma_block || + ch_num >= cppi41_dma_block[dma_num].num_rx_ch) + return -EINVAL; + + /* Populate the channel object structure */ + rx_ch_obj->base_addr = cppi41_dma_block[dma_num].ch_ctrl_stat_base + + DMA_CH_RX_GLOBAL_CFG_REG(ch_num); + rx_ch_obj->global_cfg = __raw_readl(rx_ch_obj->base_addr); + return 0; +} +EXPORT_SYMBOL(cppi41_rx_ch_init); + +/* + * We have to cache the last written Rx/Tx channel global configration register + * value due to its bits other than enable/teardown being write-only. Yet there + * is a caveat related to caching the enable bit: this bit may be automatically + * cleared as a result of teardown, so we can't trust its cached value! + * When modifying the write only register fields, we're making use of the fact + * that they read back as zeros, and not clearing them explicitly... + */ + +/* + * cppi41_dma_ch_default_queue - set CPPI 4.1 channel default completion queue + */ +void cppi41_dma_ch_default_queue(struct cppi41_dma_ch_obj *dma_ch_obj, + u8 q_mgr, u16 q_num) +{ + u32 val = dma_ch_obj->global_cfg; + + /* Clear the fields to be modified. */ + val &= ~(DMA_CH_TX_DEFAULT_QMGR_MASK | DMA_CH_TX_DEFAULT_QNUM_MASK | + DMA_CH_TX_ENABLE_MASK); + + /* Set the default completion queue. */ + val |= ((q_mgr << DMA_CH_TX_DEFAULT_QMGR_SHIFT) & + DMA_CH_TX_DEFAULT_QMGR_MASK) | + ((q_num << DMA_CH_TX_DEFAULT_QNUM_SHIFT) & + DMA_CH_TX_DEFAULT_QNUM_MASK); + + /* Get the current state of the enable bit. */ + dma_ch_obj->global_cfg = val |= __raw_readl(dma_ch_obj->base_addr); + __raw_writel(val, dma_ch_obj->base_addr); + pr_debug("Channel global configuration @ %p, value written: %x, " + "value read: %x\n", dma_ch_obj->base_addr, val, + __raw_readl(dma_ch_obj->base_addr)); + +} +EXPORT_SYMBOL(cppi41_dma_ch_default_queue); + +/* + * cppi41_rx_ch_configure - configure CPPI 4.1 Rx channel + */ +void cppi41_rx_ch_configure(struct cppi41_dma_ch_obj *rx_ch_obj, + struct cppi41_rx_ch_cfg *cfg) +{ + void __iomem *base = rx_ch_obj->base_addr; + u32 val = __raw_readl(rx_ch_obj->base_addr); + + val |= ((cfg->sop_offset << DMA_CH_RX_SOP_OFFSET_SHIFT) & + DMA_CH_RX_SOP_OFFSET_MASK) | + ((cfg->default_desc_type << DMA_CH_RX_DEFAULT_DESC_TYPE_SHIFT) & + DMA_CH_RX_DEFAULT_DESC_TYPE_MASK) | + ((cfg->retry_starved << DMA_CH_RX_ERROR_HANDLING_SHIFT) & + DMA_CH_RX_ERROR_HANDLING_MASK) | + ((cfg->rx_queue.q_mgr << DMA_CH_RX_DEFAULT_RQ_QMGR_SHIFT) & + DMA_CH_RX_DEFAULT_RQ_QMGR_MASK) | + ((cfg->rx_queue.q_num << DMA_CH_RX_DEFAULT_RQ_QNUM_SHIFT) & + DMA_CH_RX_DEFAULT_RQ_QNUM_MASK); + + rx_ch_obj->global_cfg = val; + __raw_writel(val, base); + pr_debug("Rx channel global configuration @ %p, value written: %x, " + "value read: %x\n", base, val, __raw_readl(base)); + + base -= DMA_CH_RX_GLOBAL_CFG_REG(0); + + /* + * Set up the packet configuration register + * based on the descriptor type... + */ + switch (cfg->default_desc_type) { + case DMA_CH_RX_DEFAULT_DESC_EMBED: + val = ((cfg->cfg.embed_pkt.fd_queue.q_mgr << + DMA_CH_RX_EMBED_FDQ_QMGR_SHIFT) & + DMA_CH_RX_EMBED_FDQ_QMGR_MASK) | + ((cfg->cfg.embed_pkt.fd_queue.q_num << + DMA_CH_RX_EMBED_FDQ_QNUM_SHIFT) & + DMA_CH_RX_EMBED_FDQ_QNUM_MASK) | + ((cfg->cfg.embed_pkt.num_buf_slot << + DMA_CH_RX_EMBED_NUM_SLOT_SHIFT) & + DMA_CH_RX_EMBED_NUM_SLOT_MASK) | + ((cfg->cfg.embed_pkt.sop_slot_num << + DMA_CH_RX_EMBED_SOP_SLOT_SHIFT) & + DMA_CH_RX_EMBED_SOP_SLOT_MASK); + + __raw_writel(val, base + DMA_CH_RX_EMBED_PKT_CFG_REG_B(0)); + pr_debug("Rx channel embedded packet configuration B @ %p, " + "value written: %x\n", + base + DMA_CH_RX_EMBED_PKT_CFG_REG_B(0), val); + + val = ((cfg->cfg.embed_pkt.free_buf_pool[0].b_pool << + DMA_CH_RX_EMBED_FBP_PNUM_SHIFT(0)) & + DMA_CH_RX_EMBED_FBP_PNUM_MASK(0)) | + ((cfg->cfg.embed_pkt.free_buf_pool[0].b_mgr << + DMA_CH_RX_EMBED_FBP_BMGR_SHIFT(0)) & + DMA_CH_RX_EMBED_FBP_BMGR_MASK(0)) | + ((cfg->cfg.embed_pkt.free_buf_pool[1].b_pool << + DMA_CH_RX_EMBED_FBP_PNUM_SHIFT(1)) & + DMA_CH_RX_EMBED_FBP_PNUM_MASK(1)) | + ((cfg->cfg.embed_pkt.free_buf_pool[1].b_mgr << + DMA_CH_RX_EMBED_FBP_BMGR_SHIFT(1)) & + DMA_CH_RX_EMBED_FBP_BMGR_MASK(1)) | + ((cfg->cfg.embed_pkt.free_buf_pool[2].b_pool << + DMA_CH_RX_EMBED_FBP_PNUM_SHIFT(2)) & + DMA_CH_RX_EMBED_FBP_PNUM_MASK(2)) | + ((cfg->cfg.embed_pkt.free_buf_pool[2].b_mgr << + DMA_CH_RX_EMBED_FBP_BMGR_SHIFT(2)) & + DMA_CH_RX_EMBED_FBP_BMGR_MASK(2)) | + ((cfg->cfg.embed_pkt.free_buf_pool[3].b_pool << + DMA_CH_RX_EMBED_FBP_PNUM_SHIFT(3)) & + DMA_CH_RX_EMBED_FBP_PNUM_MASK(3)) | + ((cfg->cfg.embed_pkt.free_buf_pool[3].b_mgr << + DMA_CH_RX_EMBED_FBP_BMGR_SHIFT(3)) & + DMA_CH_RX_EMBED_FBP_BMGR_MASK(3)); + + __raw_writel(val, base + DMA_CH_RX_EMBED_PKT_CFG_REG_A(0)); + pr_debug("Rx channel embedded packet configuration A @ %p, " + "value written: %x\n", + base + DMA_CH_RX_EMBED_PKT_CFG_REG_A(0), val); + break; + case DMA_CH_RX_DEFAULT_DESC_HOST: + val = ((cfg->cfg.host_pkt.fdb_queue[0].q_num << + DMA_CH_RX_HOST_FDQ_QNUM_SHIFT(0)) & + DMA_CH_RX_HOST_FDQ_QNUM_MASK(0)) | + ((cfg->cfg.host_pkt.fdb_queue[0].q_mgr << + DMA_CH_RX_HOST_FDQ_QMGR_SHIFT(0)) & + DMA_CH_RX_HOST_FDQ_QMGR_MASK(0)) | + ((cfg->cfg.host_pkt.fdb_queue[1].q_num << + DMA_CH_RX_HOST_FDQ_QNUM_SHIFT(1)) & + DMA_CH_RX_HOST_FDQ_QNUM_MASK(1)) | + ((cfg->cfg.host_pkt.fdb_queue[1].q_mgr << + DMA_CH_RX_HOST_FDQ_QMGR_SHIFT(1)) & + DMA_CH_RX_HOST_FDQ_QMGR_MASK(1)); + + __raw_writel(val, base + DMA_CH_RX_HOST_PKT_CFG_REG_A(0)); + pr_debug("Rx channel host packet configuration A @ %p, " + "value written: %x\n", + base + DMA_CH_RX_HOST_PKT_CFG_REG_A(0), val); + + val = ((cfg->cfg.host_pkt.fdb_queue[2].q_num << + DMA_CH_RX_HOST_FDQ_QNUM_SHIFT(2)) & + DMA_CH_RX_HOST_FDQ_QNUM_MASK(2)) | + ((cfg->cfg.host_pkt.fdb_queue[2].q_mgr << + DMA_CH_RX_HOST_FDQ_QMGR_SHIFT(2)) & + DMA_CH_RX_HOST_FDQ_QMGR_MASK(2)) | + ((cfg->cfg.host_pkt.fdb_queue[3].q_num << + DMA_CH_RX_HOST_FDQ_QNUM_SHIFT(3)) & + DMA_CH_RX_HOST_FDQ_QNUM_MASK(3)) | + ((cfg->cfg.host_pkt.fdb_queue[3].q_mgr << + DMA_CH_RX_HOST_FDQ_QMGR_SHIFT(3)) & + DMA_CH_RX_HOST_FDQ_QMGR_MASK(3)); + + __raw_writel(val, base + DMA_CH_RX_HOST_PKT_CFG_REG_B(0)); + pr_debug("Rx channel host packet configuration B @ %p, " + "value written: %x\n", + base + DMA_CH_RX_HOST_PKT_CFG_REG_B(0), val); + break; + case DMA_CH_RX_DEFAULT_DESC_MONO: + val = ((cfg->cfg.mono_pkt.fd_queue.q_num << + DMA_CH_RX_MONO_FDQ_QNUM_SHIFT) & + DMA_CH_RX_MONO_FDQ_QNUM_MASK) | + ((cfg->cfg.mono_pkt.fd_queue.q_mgr << + DMA_CH_RX_MONO_FDQ_QMGR_SHIFT) & + DMA_CH_RX_MONO_FDQ_QMGR_MASK) | + ((cfg->cfg.mono_pkt.sop_offset << + DMA_CH_RX_MONO_SOP_OFFSET_SHIFT) & + DMA_CH_RX_MONO_SOP_OFFSET_MASK); + + __raw_writel(val, base + DMA_CH_RX_MONO_PKT_CFG_REG(0)); + pr_debug("Rx channel monolithic packet configuration @ %p, " + "value written: %x\n", + base + DMA_CH_RX_MONO_PKT_CFG_REG(0), val); + break; + } +} +EXPORT_SYMBOL(cppi41_rx_ch_configure); + +/* + * cppi41_dma_ch_teardown - teardown a given Tx/Rx channel + */ +void cppi41_dma_ch_teardown(struct cppi41_dma_ch_obj *dma_ch_obj) +{ + u32 val = __raw_readl(dma_ch_obj->base_addr); + + /* Initiate channel teardown. */ + val |= dma_ch_obj->global_cfg & ~DMA_CH_TX_ENABLE_MASK; + dma_ch_obj->global_cfg = val |= DMA_CH_TX_TEARDOWN_MASK; + __raw_writel(val, dma_ch_obj->base_addr); + pr_debug("Tear down channel @ %p, value written: %x, value read: %x\n", + dma_ch_obj->base_addr, val, + __raw_readl(dma_ch_obj->base_addr)); +} +EXPORT_SYMBOL(cppi41_dma_ch_teardown); + +/* + * cppi41_dma_ch_enable - enable Tx/Rx DMA channel in hardware + * + * Makes the channel ready for data transmission/reception. + */ +void cppi41_dma_ch_enable(struct cppi41_dma_ch_obj *dma_ch_obj) +{ + u32 val = dma_ch_obj->global_cfg | DMA_CH_TX_ENABLE_MASK; + + /* Teardown bit remains set after completion, so clear it now... */ + dma_ch_obj->global_cfg = val &= ~DMA_CH_TX_TEARDOWN_MASK; + __raw_writel(val, dma_ch_obj->base_addr); + pr_debug("Enable channel @ %p, value written: %x, value read: %x\n", + dma_ch_obj->base_addr, val, + __raw_readl(dma_ch_obj->base_addr)); +} +EXPORT_SYMBOL(cppi41_dma_ch_enable); + +/* + * cppi41_dma_ch_disable - disable Tx/Rx DMA channel in hardware + */ +void cppi41_dma_ch_disable(struct cppi41_dma_ch_obj *dma_ch_obj) +{ + dma_ch_obj->global_cfg &= ~DMA_CH_TX_ENABLE_MASK; + __raw_writel(dma_ch_obj->global_cfg, dma_ch_obj->base_addr); + pr_debug("Disable channel @ %p, value written: %x, value read: %x\n", + dma_ch_obj->base_addr, dma_ch_obj->global_cfg, + __raw_readl(dma_ch_obj->base_addr)); +} +EXPORT_SYMBOL(cppi41_dma_ch_disable); + +/** + * alloc_queue - allocate a queue in the given range + * @allocated: pointer to the bitmap of the allocated queues + * @excluded: pointer to the bitmap of the queues excluded from allocation + * (optional) + * @start: starting queue number + * @count: number of queues available + * + * Returns queue number on success, -ENOSPC otherwise. + */ +static int alloc_queue(u32 *allocated, const u32 *excluded, unsigned start, + unsigned count) +{ + u32 bit, mask = 0; + int index = -1; + + /* + * We're starting the loop as if we've just wrapped around 32 bits + * in order to save on preloading the bitmasks. + */ + for (bit = 0; count--; start++, bit <<= 1) { + /* Have we just wrapped around 32 bits? */ + if (!bit) { + /* Start over with the next bitmask word */ + bit = 1; + index++; + /* Have we just entered the loop? */ + if (!index) { + /* Calculate the starting values */ + bit <<= start & 0x1f; + index = start >> 5; + } + /* + * Load the next word of the allocated bitmask OR'ing + * it with the excluded bitmask if it's been passed. + */ + mask = allocated[index]; + if (excluded != NULL) + mask |= excluded[index]; + } + /* + * If the bit in the combined bitmask is zero, + * we've just found a free queue. + */ + if (!(mask & bit)) { + allocated[index] |= bit; + return start; + } + } + return -ENOSPC; +} + +/* + * cppi41_queue_alloc - allocate a queue of a given type in the queue manager + */ +int cppi41_queue_alloc(u8 type, u8 q_mgr, u16 *q_num) +{ + int res = -ENOSPC; + + if (q_mgr >= cppi41_num_queue_mgr) + return -EINVAL; + + /* Mask out the unsupported queue types */ + type &= cppi41_queue_mgr[q_mgr].queue_types; + /* First see if a free descriptor queue was requested... */ + if (type & CPPI41_FREE_DESC_QUEUE) + res = alloc_queue(allocated_queues[q_mgr], NULL, + cppi41_queue_mgr[q_mgr].base_fdq_num, 16); + + /* Then see if a free descriptor/buffer queue was requested... */ + if (res < 0 && (type & CPPI41_FREE_DESC_BUF_QUEUE)) + res = alloc_queue(allocated_queues[q_mgr], NULL, + cppi41_queue_mgr[q_mgr].base_fdbq_num, 16); + + /* Last see if an unassigned queue was requested... */ + if (res < 0 && (type & CPPI41_UNASSIGNED_QUEUE)) + res = alloc_queue(allocated_queues[q_mgr], + cppi41_queue_mgr[q_mgr].assigned, 0, + cppi41_queue_mgr[q_mgr].num_queue); + + /* See if any queue was allocated... */ + if (res < 0) + return res; + + /* Return the queue allocated */ + *q_num = res; + return 0; +} +EXPORT_SYMBOL(cppi41_queue_alloc); + +/* + * cppi41_queue_free - free the given queue in the queue manager + */ +int cppi41_queue_free(u8 q_mgr, u16 q_num) +{ + int index = q_num >> 5, bit = 1 << (q_num & 0x1f); + + if (q_mgr >= cppi41_num_queue_mgr || + q_num >= cppi41_queue_mgr[q_mgr].num_queue || + !(allocated_queues[q_mgr][index] & bit)) + return -EINVAL; + + allocated_queues[q_mgr][index] &= ~bit; + return 0; +} +EXPORT_SYMBOL(cppi41_queue_free); + +/* + * cppi41_queue_init - initialize a CPPI 4.1 queue object + */ +int cppi41_queue_init(struct cppi41_queue_obj *queue_obj, u8 q_mgr, u16 q_num) +{ + if (q_mgr >= cppi41_num_queue_mgr || + q_num >= cppi41_queue_mgr[q_mgr].num_queue) + return -EINVAL; + + queue_obj->base_addr = cppi41_queue_mgr[q_mgr].q_mgmt_rgn_base + + QMGR_QUEUE_STATUS_REG_A(q_num); + + return 0; +} +EXPORT_SYMBOL(cppi41_queue_init); + +/* + * cppi41_queue_push - push a descriptor into the given queue + */ +void cppi41_queue_push(const struct cppi41_queue_obj *queue_obj, u32 desc_addr, + u32 desc_size, u32 pkt_size) +{ + u32 val; + + /* + * Write to the tail of the queue. + * TODO: Can't think of a reason why a queue to head may be required. + * If it is, the API may have to be extended. + */ +#if 0 + /* + * Also, can't understand why packet size is required to queue up a + * descriptor. The spec says packet size *must* be written prior to + * the packet write operation. + */ + if (pkt_size) + val = (pkt_size << QMGR_QUEUE_PKT_SIZE_SHIFT) & + QMGR_QUEUE_PKT_SIZE_MASK; + __raw_writel(val, queue_obj->base_addr + QMGR_QUEUE_REG_C(0)); +#endif + + val = (((desc_size - 24) >> (2 - QMGR_QUEUE_DESC_SIZE_SHIFT)) & + QMGR_QUEUE_DESC_SIZE_MASK) | + (desc_addr & QMGR_QUEUE_DESC_PTR_MASK); + + pr_debug("Pushing value %x to queue @ %p\n", val, queue_obj->base_addr); + + __raw_writel(val, queue_obj->base_addr + QMGR_QUEUE_REG_D(0)); +} +EXPORT_SYMBOL(cppi41_queue_push); + +/* + * cppi41_queue_pop - pop a descriptor from a given queue + */ +unsigned long cppi41_queue_pop(const struct cppi41_queue_obj *queue_obj) +{ + u32 val = __raw_readl(queue_obj->base_addr + QMGR_QUEUE_REG_D(0)); + + pr_debug("Popping value %x from queue @ %p\n", + val, queue_obj->base_addr); + + return val & QMGR_QUEUE_DESC_PTR_MASK; +} +EXPORT_SYMBOL(cppi41_queue_pop); + +/* + * cppi41_get_teardown_info - extract information from a teardown descriptor + */ +int cppi41_get_teardown_info(unsigned long addr, u32 *info) +{ + struct cppi41_teardown_desc *desc; + int dma_num; + + for (dma_num = 0; dma_num < cppi41_num_dma_block; dma_num++) + if (addr >= dma_teardown[dma_num].phys_addr && + addr < dma_teardown[dma_num].phys_addr + + dma_teardown[dma_num].rgn_size) + break; + + if (dma_num == cppi41_num_dma_block) + return -EINVAL; + + desc = addr - dma_teardown[dma_num].phys_addr + + dma_teardown[dma_num].virt_addr; + + if ((desc->teardown_info & CPPI41_DESC_TYPE_MASK) != + (CPPI41_DESC_TYPE_TEARDOWN << CPPI41_DESC_TYPE_SHIFT)) + return -EINVAL; + + *info = desc->teardown_info; +#if 1 + /* Hardware is not giving the current DMA number as of now. :-/ */ + *info |= (dma_num << CPPI41_TEARDOWN_DMA_NUM_SHIFT) & + CPPI41_TEARDOWN_DMA_NUM_MASK; +#else + dma_num = (desc->teardown_info & CPPI41_TEARDOWN_DMA_NUM_MASK) >> + CPPI41_TEARDOWN_DMA_NUM_SHIFT; +#endif + + cppi41_queue_push(&dma_teardown[dma_num].queue_obj, addr, + sizeof(struct cppi41_teardown_desc), 0); + + return 0; +} +EXPORT_SYMBOL(cppi41_get_teardown_info); + +MODULE_DESCRIPTION("TI CPPI 4.1 support"); +MODULE_AUTHOR("MontaVista Software"); +MODULE_LICENSE("GPL"); Index: linux-davinci/arch/arm/mach-davinci/include/mach/cppi41.h =================================================================== --- /dev/null +++ linux-davinci/arch/arm/mach-davinci/include/mach/cppi41.h @@ -0,0 +1,718 @@ +/* + * CPPI 4.1 definitions + * + * Copyright (c) 2008-2009, MontaVista Software, Inc. + * + * Based on the PAL CPPI 4.1 implementation + * Copyright (C) 2007, Texas Instruments, Inc. http://www.ti.com/ + * + * This program is free software; you can distribute it and/or modify it + * under the terms of the GNU General Public License (Version 2) as + * published by the Free Software Foundation. + * + * This program is distributed in the hope it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License + * for more details. + * + * You should have received a copy of the GNU General Public License along + * with this program; if not, write to the Free Software Foundation, Inc., + * 59 Temple Place - Suite 330, Boston MA 02111-1307, USA. + * + */ + +#include + +/* + * Queue Manager - Control Registers Region + */ +#define QMGR_REVISION_REG 0x00 /* Major and minor versions */ + /* of the module */ +#define QMGR_QUEUE_DIVERSION_REG 0x08 /* Queue Diversion register */ +#define QMGR_FREE_DESC_BUF_STARVED_REG(n) (0x20 + ((n) << 2)) /* Free Desc./ */ + /* Buffer Starvation Count */ +#define QMGR_FREE_DESC_STARVED_REG(n) (0x30 + ((n) << 2)) /* Free Desc. */ + /* Starvation Count */ +#define QMGR_LINKING_RAM_RGN0_BASE_REG 0x80 /* Linking RAM Region 0 Base */ + /* Address */ +#define QMGR_LINKING_RAM_RGN0_SIZE_REG 0x84 /* Linking RAM Region 0 Size */ +#define QMGR_LINKING_RAM_RGN1_BASE_REG 0x88 /* Linking RAM Region 1 Base */ + /* Address */ +#define QMGR_QUEUE_PENDING_REG(n) (0x90 + ((n) << 2)) /* Pending status */ + /* for all queues */ + +/* + * Queue Manager - Memory Region Registers + */ +#define QMGR_MEM_RGN_BASE_REG(r) (0x00 + ((r) << 4)) +#define QMGR_MEM_RGN_CTRL_REG(r) (0x04 + ((r) << 4)) + +/* Memory Region R Control Register bits */ +#define QMGR_MEM_RGN_INDEX_SHIFT 16 +#define QMGR_MEM_RGN_INDEX_MASK (0x3fff << QMGR_MEM_RGN_INDEX_SHIFT) +#define QMGR_MEM_RGN_DESC_SIZE_SHIFT 8 +#define QMGR_MEM_RGN_DESC_SIZE_MASK (0xf << QMGR_MEM_RGN_DESC_SIZE_SHIFT) +#define QMGR_MEM_RGN_SIZE_SHIFT 0 +#define QMGR_MEM_RGN_SIZE_MASK (7 << QMGR_MEM_RGN_SIZE_SHIFT) + +/* + * Queue Manager - Queues Region + */ +#define QMGR_QUEUE_REG_A(n) (0x00 + ((n) << 4)) +#define QMGR_QUEUE_REG_B(n) (0x04 + ((n) << 4)) +#define QMGR_QUEUE_REG_C(n) (0x08 + ((n) << 4)) +#define QMGR_QUEUE_REG_D(n) (0x0C + ((n) << 4)) + +/* Queue N Register C bits */ +#define QMGR_QUEUE_HEAD_TAIL_SHIFT 31 +#define QMGR_QUEUE_HEAD_TAIL_MASK (1 << QMGR_QUEUE_HEAD_TAIL_SHIFT) +#define QMGR_QUEUE_PKT_SIZE_SHIFT 0 +#define QMGR_QUEUE_PKT_SIZE_MASK (0x3fff << QMGR_QUEUE_PKT_SIZE_SHIFT) +/* Queue N Register D bits */ +#define QMGR_QUEUE_DESC_PTR_SHIFT 5 +#define QMGR_QUEUE_DESC_PTR_MASK (0x7ffffff << QMGR_QUEUE_DESC_PTR_SHIFT) +#define QMGR_QUEUE_DESC_SIZE_SHIFT 0 +#define QMGR_QUEUE_DESC_SIZE_MASK (0x1f << QMGR_QUEUE_DESC_SIZE_SHIFT) + +/* + * Queue Manager - Queue Status Region + */ +#define QMGR_QUEUE_STATUS_REG_A(n) (0x00 + ((n) << 4)) +#define QMGR_QUEUE_STATUS_REG_B(n) (0x04 + ((n) << 4)) +#define QMGR_QUEUE_STATUS_REG_C(n) (0x08 + ((n) << 4)) + +/* + * DMA Controller - Global Control Registers Region + */ +#define DMA_REVISION_REG 0x00 /* Major and minor versions */ + /* of the module */ +#define DMA_TEARDOWN_FREE_DESC_CTRL_REG 0x04 /* Queue manager and queue */ + /* number for Teardown free */ + /* descriptor queue */ +#define DMA_EMULATION_CTRL_REG 0x08 /* Emulation control register */ + +/* Teardown Free Descriptor Queue Control Register bits */ +#define DMA_TD_DESC_QMGR_SHIFT 12 +#define DMA_TD_DESC_QMGR_MASK (3 << DMA_TD_DESC_QMGR_SHIFT) +#define DMA_TD_DESC_QNUM_SHIFT 0 +#define DMA_TD_DESC_QNUM_MASK (0xfff << DMA_TD_DESC_QNUM_SHIFT) + +/* + * DMA Controller - Channel Control / Status Registers Region + */ +#define DMA_CH_TX_GLOBAL_CFG_REG(n) (0x00 + ((n) << 5)) +#define DMA_CH_RX_GLOBAL_CFG_REG(n) (0x08 + ((n) << 5)) +#define DMA_CH_RX_HOST_PKT_CFG_REG_A(n) (0x0C + ((n) << 5)) +#define DMA_CH_RX_HOST_PKT_CFG_REG_B(n) (0x10 + ((n) << 5)) +#define DMA_CH_RX_EMBED_PKT_CFG_REG_A(n) (0x14 + ((n) << 5)) +#define DMA_CH_RX_EMBED_PKT_CFG_REG_B(n) (0x18 + ((n) << 5)) +#define DMA_CH_RX_MONO_PKT_CFG_REG(n) (0x1C + ((n) << 5)) + +/* Tx Channel N Global Configuration Register bits */ +#define DMA_CH_TX_ENABLE_SHIFT 31 +#define DMA_CH_TX_ENABLE_MASK (1 << DMA_CH_TX_ENABLE_SHIFT) +#define DMA_CH_TX_TEARDOWN_SHIFT 30 +#define DMA_CH_TX_TEARDOWN_MASK (1 << DMA_CH_TX_TEARDOWN_SHIFT) +#define DMA_CH_TX_DEFAULT_QMGR_SHIFT 12 +#define DMA_CH_TX_DEFAULT_QMGR_MASK (3 << DMA_CH_TX_DEFAULT_QMGR_SHIFT) +#define DMA_CH_TX_DEFAULT_QNUM_SHIFT 0 +#define DMA_CH_TX_DEFAULT_QNUM_MASK (0xfff << DMA_CH_TX_DEFAULT_QNUM_SHIFT) + +/* Rx Channel N Global Configuration Register bits */ +#define DMA_CH_RX_ENABLE_SHIFT 31 +#define DMA_CH_RX_ENABLE_MASK (1 << DMA_CH_RX_ENABLE_SHIFT) +#define DMA_CH_RX_TEARDOWN_SHIFT 30 +#define DMA_CH_RX_TEARDOWN_MASK (1 << DMA_CH_RX_TEARDOWN_SHIFT) +#define DMA_CH_RX_ERROR_HANDLING_SHIFT 24 +#define DMA_CH_RX_ERROR_HANDLING_MASK (1 << DMA_CH_RX_ERROR_HANDLING_SHIFT) +#define DMA_CH_RX_SOP_OFFSET_SHIFT 16 +#define DMA_CH_RX_SOP_OFFSET_MASK (0xff << DMA_CH_RX_SOP_OFFSET_SHIFT) +#define DMA_CH_RX_DEFAULT_DESC_TYPE_SHIFT 14 +#define DMA_CH_RX_DEFAULT_DESC_TYPE_MASK (3 << \ + DMA_CH_RX_DEFAULT_DESC_TYPE_SHIFT) +#define DMA_CH_RX_DEFAULT_DESC_EMBED 0 +#define DMA_CH_RX_DEFAULT_DESC_HOST 1 +#define DMA_CH_RX_DEFAULT_DESC_MONO 2 +#define DMA_CH_RX_DEFAULT_RQ_QMGR_SHIFT 12 +#define DMA_CH_RX_DEFAULT_RQ_QMGR_MASK (3 << DMA_CH_RX_DEFAULT_RQ_QMGR_SHIFT) +#define DMA_CH_RX_DEFAULT_RQ_QNUM_SHIFT 0 +#define DMA_CH_RX_DEFAULT_RQ_QNUM_MASK (0xfff << \ + DMA_CH_RX_DEFAULT_RQ_QNUM_SHIFT) + +/* Rx Channel N Host Packet Configuration Register A/B bits */ +#define DMA_CH_RX_HOST_FDQ_QMGR_SHIFT(n) (12 + 16 * ((n) & 1)) +#define DMA_CH_RX_HOST_FDQ_QMGR_MASK(n) (3 << DMA_CH_RX_HOST_FDQ_QMGR_SHIFT(n)) +#define DMA_CH_RX_HOST_FDQ_QNUM_SHIFT(n) (0 + 16 * ((n) & 1)) +#define DMA_CH_RX_HOST_FDQ_QNUM_MASK(n) (0xfff << \ + DMA_CH_RX_HOST_FDQ_QNUM_SHIFT(n)) + +/* Rx Channel N Embedded Packet Configuration Register A bits */ +#define DMA_CH_RX_EMBED_FBP_BMGR_SHIFT(n) (6 + 8 * (n)) +#define DMA_CH_RX_EMBED_FBP_BMGR_MASK(n) (3 << \ + DMA_CH_RX_EMBED_FBP_BMGR_SHIFT(n)) +#define DMA_CH_RX_EMBED_FBP_PNUM_SHIFT(n) (0 + 8 * (n)) +#define DMA_CH_RX_EMBED_FBP_PNUM_MASK(n) (0x1f << \ + DMA_CH_RX_EMBED_FBP_PNUM_SHIFT(n)) + +/* Rx Channel N Embedded Packet Configuration Register B bits */ +#define DMA_CH_RX_EMBED_NUM_SLOT_SHIFT 24 +#define DMA_CH_RX_EMBED_NUM_SLOT_MASK (7 << DMA_CH_RX_EMBED_NUM_SLOT_SHIFT) +#define DMA_CH_RX_EMBED_SOP_SLOT_SHIFT 16 +#define DMA_CH_RX_EMBED_SOP_SLOT_MASK (7 << DMA_CH_RX_EMBED_SOP_SLOT_SHIFT) +#define DMA_CH_RX_EMBED_FDQ_QMGR_SHIFT 12 +#define DMA_CH_RX_EMBED_FDQ_QMGR_MASK (3 << DMA_CH_RX_EMBED_FDQ_QMGR_SHIFT) +#define DMA_CH_RX_EMBED_FDQ_QNUM_SHIFT 0 +#define DMA_CH_RX_EMBED_FDQ_QNUM_MASK (0xfff << \ + DMA_CH_RX_EMBED_FDQ_QNUM_SHIFT) + +/* Rx Channel N Monolithic Packet Configuration Register bits */ +#define DMA_CH_RX_MONO_SOP_OFFSET_SHIFT 16 +#define DMA_CH_RX_MONO_SOP_OFFSET_MASK (0xff << \ + DMA_CH_RX_MONO_SOP_OFFSET_SHIFT) +#define DMA_CH_RX_MONO_FDQ_QMGR_SHIFT 12 +#define DMA_CH_RX_MONO_FDQ_QMGR_MASK (3 << DMA_CH_RX_MONO_FDQ_QMGR_SHIFT) +#define DMA_CH_RX_MONO_FDQ_QNUM_SHIFT 0 +#define DMA_CH_RX_MONO_FDQ_QNUM_MASK (0xfff << DMA_CH_RX_MONO_FDQ_QNUM_SHIFT) + +/* + * DMA Scheduler - Control Region + */ +#define DMA_SCHED_CTRL_REG 0x00 + +/* DMA Scheduler Control Register bits */ +#define DMA_SCHED_ENABLE_SHIFT 31 +#define DMA_SCHED_ENABLE_MASK (1 << DMA_SCHED_ENABLE_SHIFT) +#define DMA_SCHED_LAST_ENTRY_SHIFT 0 +#define DMA_SCHED_LAST_ENTRY_MASK (0xff << DMA_SCHED_LAST_ENTRY_SHIFT) + +/* + * DMA Scheduler - Table Region + */ +#define DMA_SCHED_TABLE_WORD_REG(n) ((n) << 2) + +/* + * CPPI 4.1 Host Packet Descriptor + */ +struct cppi41_host_pkt_desc { + u32 desc_info; /* Descriptor type, protocol specific word */ + /* count, packet length */ + u32 tag_info; /* Source tag (31:16), destination tag (15:0) */ + u32 pkt_info; /* Packet error state, type, protocol flags, */ + /* return info, descriptor location */ + u32 buf_len; /* Number of valid data bytes in the buffer */ + u32 buf_ptr; /* Pointer to the buffer associated with */ + /* this descriptor */ + u32 next_desc_ptr; /* Pointer to the next buffer descriptor */ + u32 orig_buf_len; /* Original buffer length */ + u32 orig_buf_ptr; /* Original buffer pointer */ + u32 stk_comms_info[2]; /* Network stack private communications info */ +}; + +/* + * CPPI 4.1 Host Buffer Descriptor + */ +struct cppi41_host_buf_desc { + u32 reserved[2]; + u32 buf_recl_info; /* Return info, descriptor location */ + u32 buf_len; /* Number of valid data bytes in the buffer */ + u32 buf_ptr; /* Pointer to the buffer associated with */ + /* this descriptor */ + u32 next_desc_ptr; /* Pointer to the next buffer descriptor */ + u32 orig_buf_len; /* Original buffer length */ + u32 orig_buf_ptr; /* Original buffer pointer */ +}; + +#define CPPI41_DESC_TYPE_SHIFT 27 +#define CPPI41_DESC_TYPE_MASK (0x1f << CPPI41_DESC_TYPE_SHIFT) +#define CPPI41_DESC_TYPE_HOST 16 +#define CPPI41_DESC_TYPE_MONOLITHIC 18 +#define CPPI41_DESC_TYPE_TEARDOWN 19 +#define CPPI41_PROT_VALID_WORD_CNT_SHIFT 22 +#define CPPI41_PROT_VALID_WORD_CNT_MASK (0x1f << CPPI41_PROT_WORD_CNT_SHIFT) +#define CPPI41_PKT_LEN_SHIFT 0 +#define CPPI41_PKT_LEN_MASK (0x1fffff << CPPI41_PKT_LEN_SHIFT) + +#define CPPI41_PKT_ERROR_SHIFT 31 +#define CPPI41_PKT_ERROR_MASK (1 << CPPI41_PKT_ERROR_SHIFT) +#define CPPI41_PKT_TYPE_SHIFT 26 +#define CPPI41_PKT_TYPE_MASK (0x1f << CPPI41_PKT_TYPE_SHIFT) +#define CPPI41_PKT_TYPE_ATM_AAL5 0 +#define CPPI41_PKT_TYPE_ATM_NULL_AAL 1 +#define CPPI41_PKT_TYPE_ATM_OAM 2 +#define CPPI41_PKT_TYPE_ATM_TRANSPARENT 3 +#define CPPI41_PKT_TYPE_EFM 4 +#define CPPI41_PKT_TYPE_USB 5 +#define CPPI41_PKT_TYPE_GENERIC 6 +#define CPPI41_PKT_TYPE_ETHERNET 7 +#define CPPI41_RETURN_POLICY_SHIFT 15 +#define CPPI41_RETURN_POLICY_MASK (1 << CPPI41_RETURN_POLICY_SHIFT) +#define CPPI41_RETURN_LINKED 0 +#define CPPI41_RETURN_UNLINKED 1 +#define CPPI41_ONCHIP_SHIFT 14 +#define CPPI41_ONCHIP_MASK (1 << CPPI41_ONCHIP_SHIFT) +#define CPPI41_RETURN_QMGR_SHIFT 12 +#define CPPI41_RETURN_QMGR_MASK (3 << CPPI41_RETURN_QMGR_SHIFT) +#define CPPI41_RETURN_QNUM_SHIFT 0 +#define CPPI41_RETURN_QNUM_MASK (0xfff << CPPI41_RETURN_QNUM_SHIFT) + +#define CPPI41_SRC_TAG_PORT_NUM_SHIFT 27 +#define CPPI41_SRC_TAG_PORT_NUM_MASK (0x1f << CPPI41_SRC_TAG_PORT_NUM_SHIFT) +#define CPPI41_SRC_TAG_CH_NUM_SHIFT 21 +#define CPPI41_SRC_TAG_CH_NUM_MASK (0x3f << CPPI41_SRC_TAG_CH_NUM_SHIFT) +#define CPPI41_SRC_TAG_SUB_CH_NUM_SHIFT 16 +#define CPPI41_SRC_TAG_SUB_CH_NUM_MASK (0x1f << \ + CPPI41_SRC_TAG_SUB_CH_NUM_SHIFT) +#define CPPI41_DEST_TAG_SHIFT 0 +#define CPPI41_DEST_TAG_MASK (0xffff << CPPI41_DEST_TAG_SHIFT) + +/* + * CPPI 4.1 Teardown Descriptor + */ +struct cppi41_teardown_desc { + u32 teardown_info; /* Teardown information */ + u32 reserved[7]; /* 28 byte padding */ +}; + +#define CPPI41_TEARDOWN_TX_RX_SHIFT 16 +#define CPPI41_TEARDOWN_TX_RX_MASK (1 << CPPI41_TEARDOWN_TX_RX_SHIFT) +#define CPPI41_TEARDOWN_DMA_NUM_SHIFT 10 +#define CPPI41_TEARDOWN_DMA_NUM_MASK (0x3f << CPPI41_TEARDOWN_DMA_NUM_SHIFT) +#define CPPI41_TEARDOWN_CHAN_NUM_SHIFT 0 +#define CPPI41_TEARDOWN_CHAN_NUM_MASK (0x3f << CPPI41_TEARDOWN_CHAN_NUM_SHIFT) + +#define CPPI41_MAX_MEM_RGN 16 + +/* CPPI 4.1 configuration for DA8xx */ +#define CPPI41_NUM_QUEUE_MGR 1 /* 4 max */ +#define CPPI41_NUM_DMA_BLOCK 4 /* 64 max */ + +/** + * struct cppi41_queue - Queue Tuple + * + * The basic queue tuple in CPPI 4.1 used across all data structures + * where a definition of a queue is required. + */ +struct cppi41_queue { + u8 q_mgr; /* The queue manager number */ + u16 q_num; /* The queue number */ +}; + +/** + * struct cppi41_buf_pool - Buffer Pool Tuple + * + * The basic buffer pool tuple in CPPI 4.1 used across all data structures + * where a definition of a buffer pool is required. + */ +struct cppi41_buf_pool { + u8 b_mgr; /* The buffer manager number */ + u16 b_pool; /* The buffer pool number */ +}; + +/** + * struct cppi41_queue_mgr - Queue Manager information + * + * Contains the information about the queue manager which should be copied from + * the hardware spec as is. + */ +struct cppi41_queue_mgr { + void __iomem *q_mgr_rgn_base; /* Base address of the Control region. */ + void __iomem *desc_mem_rgn_base; /* Base address of the descriptor */ + /* memory region. */ + void __iomem *q_mgmt_rgn_base; /* Base address of the queues region. */ + void __iomem *q_stat_rgn_base; /* Base address of the queue status */ + /* region. */ + u16 num_queue; /* Number of the queues supported. */ + u8 queue_types; /* Bitmask of the supported queue types. */ + u16 base_fdq_num; /* The base free descriptor queue number. */ + /* If present, there's always 16 such queues. */ + u16 base_fdbq_num; /* The base free descriptor/buffer queue */ + /* number. If present, there's always 16 */ + /* such queues. */ + const u32 *assigned; /* Pointer to the bitmask of the pre-assigned */ + /* queues. */ +}; + +/* Queue type flags */ +#define CPPI41_FREE_DESC_QUEUE 0x01 +#define CPPI41_FREE_DESC_BUF_QUEUE 0x02 +#define CPPI41_UNASSIGNED_QUEUE 0x04 + +/** + * struct cppi41_embed_pkt_cfg - Rx Channel Embedded packet configuration + * + * An instance of this structure forms part of the Rx channel information + * structure. + */ +struct cppi41_embed_pkt_cfg { + struct cppi41_queue fd_queue; /* Free Descriptor queue.*/ + u8 num_buf_slot; /* Number of buffer slots in the descriptor */ + u8 sop_slot_num; /* SOP buffer slot number. */ + struct cppi41_buf_pool free_buf_pool[4]; /* Free Buffer pool. Element */ + /* 0 used for the 1st Rx buffer, etc. */ +}; + +/** + * struct cppi41_host_pkt_cfg - Rx Channel Host Packet Configuration + * + * An instance of this structure forms part of the Rx channel information + * structure. + */ +struct cppi41_host_pkt_cfg { + struct cppi41_queue fdb_queue[4]; /* Free Desc/Buffer queue. Element */ + /* 0 used for 1st Rx buffer, etc. */ +}; + +/** + * struct cppi41_mono_pkt_cfg - Rx Channel Monolithic Packet Configuration + * + * An instance of this structure forms part of the Rx channel information + * structure. + */ +struct cppi41_mono_pkt_cfg { + struct cppi41_queue fd_queue; /* Free descriptor queue */ + u8 sop_offset; /* Number of bytes to skip before writing */ + /* payload */ +}; + +enum cppi41_rx_desc_type { + cppi41_rx_embed_desc, + cppi41_rx_host_desc, + cppi41_rx_mono_desc, +}; + +/** + * struct cppi41_rx_ch_cfg - Rx Channel Configuration + * + * Must be allocated and filled by the caller of cppi41_rx_ch_configure(). + * + * The same channel can be configured to receive different descripor type + * packets (not simultaneously). When the Rx packets on a port need to be sent + * to the SR, the channel's default descriptor type is set to Embedded and the + * Rx completion queue is set to the queue which CPU polls for input packets. + * When in SR bypass mode, the same channel's default descriptor type will be + * set to Host and the Rx completion queue set to one of the queues which host + * can get interrupted on (via the Queuing proxy/accumulator). In this example, + * the embedded mode configuration fetches free descriptor from the Free + * descriptor queue (as defined by struct cppi41_embed_pkt_cfg) and host + * mode configuration fetches free descriptors/buffers from the free descriptor/ + * buffer queue (as defined by struct cppi41_host_pkt_cfg). + * + * NOTE: There seems to be no separate configuration for teardown completion + * descriptor. The assumption is rxQueue tuple is used for this purpose as well. + */ +struct cppi41_rx_ch_cfg { + enum cppi41_rx_desc_type default_desc_type; /* Describes which queue */ + /* configuration is used for the free */ + /* descriptors and/or buffers */ + u8 sop_offset; /* Number of bytes to skip in SOP buffer */ + /* before writing payload */ + u8 retry_starved; /* 0 = Drop packet on descriptor/buffer */ + /* starvartion, 1 = DMA retries FIFO block */ + /* transfer at a later time */ + struct cppi41_queue rx_queue; /* Rx complete packets queue */ + union { + struct cppi41_host_pkt_cfg host_pkt; /* Host packet */ + /* configuration. This defines where channel */ + /* picks free descriptors from. */ + struct cppi41_embed_pkt_cfg embed_pkt; /* Embedded packet */ + /* configuration. This defines where channel */ + /* picks free descriptors/buffers from. */ + /* from. */ + struct cppi41_mono_pkt_cfg mono_pkt; /* Monolithic packet */ + /* configuration. This defines where channel */ + /* picks free descriptors from. */ + } cfg; /* Union of packet configuration structures */ + /* to be filled in depending on the */ + /* defDescType field. */ +}; + +/** + * struct cppi41_tx_ch - Tx channel information + * + * NOTE: The queues that feed into the Tx channel are fixed at SoC design time. + */ +struct cppi41_tx_ch { + u8 port_num; /* Port number. */ + u8 ch_num; /* Channel number within port. */ + u8 sub_ch_num; /* Sub-channel number within channel. */ + u8 num_tx_queue; /* Number of queues from which the channel */ + /* can feed. */ + struct cppi41_queue tx_queue[4]; /* List of queues from which the */ + /* channel can feed. */ +}; + +/** + * struct cppi41_dma_block - CPPI 4.1 DMA configuration + * + * Configuration information for CPPI DMA functionality. Includes the Global + * configuration, Channel configuration, and the Scheduler configuration. + */ +struct cppi41_dma_block { + void __iomem *global_ctrl_base; /* Base address of the Global Control */ + /* registers. */ + void __iomem *ch_ctrl_stat_base; /* Base address of the Channel */ + /* Control/Status registers. */ + void __iomem *sched_ctrl_base; /* Base address of the Scheduler */ + /* Control register. */ + void __iomem *sched_table_base; /* Base address of the Scheduler */ + /* Table registers. */ + u8 num_tx_ch; /* Number of the Tx channels. */ + u8 num_rx_ch; /* Number of the Rx channels. */ + const struct cppi41_tx_ch *tx_ch_info; +}; + +extern const struct cppi41_queue_mgr cppi41_queue_mgr[]; +extern const struct cppi41_dma_block cppi41_dma_block[]; +extern const u8 cppi41_num_queue_mgr; +extern const u8 cppi41_num_dma_block; + +/** + * struct cppi41_dma_ch_obj - CPPI 4.1 DMA Channel object + */ +struct cppi41_dma_ch_obj { + void __iomem *base_addr; /* The address of the channel global */ + /* configuration register */ + u32 global_cfg; /* Tx/Rx global configuration backed-up value */ +}; + +/** + * struct cppi41_queue_obj - CPPI 4.1 queue object + */ +struct cppi41_queue_obj { + void __iomem *base_addr; /* The base address of the queue management */ + /* registers */ +}; + +/** + * cppi41_queue_mgr_init - CPPI 4.1 queue manager initialization. + * @q_mgr: the queue manager to initialize + * @rgn0_base: linking RAM region 0 physical address + * @rgn0_size: linking RAM region 0 size in 32-bit words (0 to 0x3fff) + * + * Returns 0 on success, error otherwise. + */ +int cppi41_queue_mgr_init(u8 q_mgr, dma_addr_t rgn0_base, u16 rgn0_size); + +/* + * CPPI 4.1 Queue Manager Memory Region Allocation and De-allocation APIs. + */ + +/** + * cppi41_mem_rgn_alloc - CPPI 4.1 queue manager memory region allocation. + * @q_mgr: the queue manager whose memory region to allocate + * @rgn_addr: physical address of the memory region + * @size_order: descriptor size as a power of two (between 5 and 13) + * @num_order: number of descriptors as a power of two (between 5 and 12) + * @mem_rgn: pointer to the index of the memory region allocated + * + * This function allocates a memory region within the queue manager + * consisiting of the descriptors of paricular size and number. + * + * Returns 0 on success, error otherwise. + */ +int cppi41_mem_rgn_alloc(u8 q_mgr, dma_addr_t rgn_addr, u8 size_order, + u8 num_order, u8 *mem_rgn); + +/** + * cppi41_mem_rgn_free - CPPI 4.1 queue manager memory region de-allocation. + * @q_mgr: the queue manager whose memory region was allocated + * @mem_rgn: index of the memory region + * + * This function frees the memory region allocated by cppi41_mem_rgn_alloc(). + * + * Returns 0 on success, -EINVAL otherwise. + */ +int cppi41_mem_rgn_free(u8 q_mgr, u8 mem_rgn); + +/** + * cppi41_dma_ctrlr_init - CPPI 4.1 DMA controller initialization. + * @dma_num: number of the DMA block + * @q_mgr: the queue manager in which to allocate the free teardown + * descriptor queue + * @num_order: number of teardown descriptors as a power of two (at least 5) + * + * Returns 0 on success, error otherwise. + */ +int cppi41_dma_ctrlr_init(u8 dma_num, u8 q_mgr, u8 num_order); + +/** + * cppi41_dma_sched_init - CPPI 4.1 DMA scheduler initialization. + * @dma_num: number of the DMA block + * @sched_tbl: the DMA scheduler table + * @tbl_size: number of entries in the DMA scheduler table + * + * Returns 0 on success, error otherwise. + */ +int cppi41_dma_sched_init(u8 dma_num, const u8 *sched_tbl, u16 tbl_size); + +/* + * CPPI 4.1 DMA Channel Management APIs + */ + +/** + * cppi41_tx_ch_init - initialize CPPI 4.1 transmit channel object + * @tx_ch_obj: pointer to Tx channel object + * @dma_num: DMA block to which this channel belongs + * @ch_num: DMA channel number + * + * Returns 0 if valid Tx channel, -EINVAL otherwise. + */ +int cppi41_tx_ch_init(struct cppi41_dma_ch_obj *tx_ch_obj, + u8 dma_num, u8 ch_num); + +/** + * cppi41_rx_ch_init - initialize CPPI 4.1 receive channel object + * @rx_ch_obj: pointer to Rx channel object + * @dma_num: DMA block to which this channel belongs + * @ch_num: DMA channel number + * + * Returns 0 if valid Rx channel, -EINVAL otherwise. + */ +int cppi41_rx_ch_init(struct cppi41_dma_ch_obj *rx_ch_obj, + u8 dma_num, u8 ch_num); + +/** + * cppi41_dma_ch_default_queue - set CPPI 4.1 channel default completion queue + * @dma_ch_obj: pointer to DMA channel object + * @q_mgr: default queue manager + * @q_num: default queue number + * + * This function configures the specified channel. The caller is required to + * provide the default queue onto which the teardown descriptors will be queued. + */ +void cppi41_dma_ch_default_queue(struct cppi41_dma_ch_obj *dma_ch_obj, + u8 q_mgr, u16 q_num); + +/** + * cppi41_rx_ch_configure - configure CPPI 4.1 receive channel + * @rx_ch_obj: pointer to Rx channel object + * @cfg: pointer to Rx channel configuration + * + * This function configures and opens the specified Rx channel. The caller + * is required to provide channel configuration information by initializing + * a struct cppi41_rx_ch_cfg. + */ +void cppi41_rx_ch_configure(struct cppi41_dma_ch_obj *rx_ch_obj, + struct cppi41_rx_ch_cfg *cfg); + +/** + * cppi41_dma_ch_enable - enable CPPI 4.1 Tx/Rx DMA channel + * @dma_ch_obj: pointer to DMA channel object + * + * This function enables a specified Tx channel. The caller is required to + * provide a reference to a channel object initialized by an earlier call of + * the cppi41_dma_ch_init() function. After the successful completion of this + * function, the Tx DMA channel will be active and ready for data transmission. + */ +void cppi41_dma_ch_enable(struct cppi41_dma_ch_obj *dma_ch_obj); + +/** + * cppi41_dma_ch_disable - disable CPPI 4.1 Tx/Rx DMA channel + * @dma_ch_obj: pointer to DMA channel object + * + * This function disables a specific Tx channel. The caller is required to + * provide a reference to a channel object initialized by an earlier call of + * the cppi41_dma_ch_init() function. After the successful completion of this + * function, the Tx DMA channel will be deactived. + */ +void cppi41_dma_ch_disable(struct cppi41_dma_ch_obj *dma_ch_obj); + +/** + * cppi41_dma_ch_teardown - tear down CPPI 4.1 transmit channel + * @dma_ch_obj: pointer DMA channel object + * + * This function triggers the teardown of the given DMA channel. + * + * ATTENTION: Channel disable should not be called before the teardown is + * completed as a disable will stop the DMA scheduling on the channel resulting + * in the teardown complete event not being registered at all. + * + * NOTE: A successful channel teardown event is reported via queueing of a + * teardown descriptor. + * + * This function just sets up for the teardown of the channel and returns. The + * caller must detect the channel teardown event to assume that the channel is + * disabled. + * + * See cppi41_get_teardown_info() for the teardown completion processing. + */ +void cppi41_dma_ch_teardown(struct cppi41_dma_ch_obj *dma_ch_obj); + +/* + * CPPI 4.1 Queue Allocation and De-allocation APIs. + */ + +/** + * cppi41_queue_alloc - allocate CPPI 4.1 queue + * @type: queue type bitmask + * @q_mgr: queue manager + * @q_num: pointer to the queue number + * + * Returns 0 if queue allocated, error otherwise. + */ +int cppi41_queue_alloc(u8 type, u8 q_mgr, u16 *q_num); + +/** + * cppi41_queue_free - de-allocate CPPI 4.1 queue + * @q_mgr: queue manager + * @q_num: queue number + * + * Returns 0 on success, -EINVAL otherwise. + */ +int cppi41_queue_free(u8 q_mgr, u16 q_num); + +/* + * CPPI 4.1 Queue Management APIs + */ + +/** + * cppi41_queue_init - initialize CPPI 4.1 queue object + * @queue_obj: pointer to the queue object + * @q_mgr: queue manager + * @q_num: queue number + * + * Returns 0 if valid queue, -EINVAL otherwise. + */ +int cppi41_queue_init(struct cppi41_queue_obj *queue_obj, u8 q_mgr, u16 q_num); + +/** + * cppi41_queue_push - push to CPPI 4.1 queue + * @queue_obj: pointer to the queue object + * @desc_addr: descriptor physical address + * @desc_size: descriptor size + * @pkt_size: packet size + * + * This function is called to queue a descriptor onto a queue. + * NOTE: pSize parameter is optional. Pass 0 in case not required. + */ +void cppi41_queue_push(const struct cppi41_queue_obj *queue_obj, u32 desc_addr, + u32 desc_size, u32 pkt_size); + +/** + * cppi41_queue_pop - pop from CPPI 4.1 queue + * @queue_obj: pointer to the queue object + * + * This function is called to pop a single descriptor from the queue. + * + * Returns a packet descriptor's physical address. + */ +unsigned long cppi41_queue_pop(const struct cppi41_queue_obj *queue_obj); + +/* + * CPPI 4.1 Miscellaneous APIs + */ + +/** + * cppi41_get_teardown_info - CPPI 4.1 teardown completion processing function + * + * @addr: physical address of teardown descriptor + * @info: pointer to the teardown information word + * + * This function is called to complete the teardown processing on a channel + * and provides teardown information from the teardown descriptor passed to it. + * It also recycles the teardown descriptor back to the teardown descriptor + * queue. + * + * Returns 0 if valid descriptor, -EINVAL otherwise. + */ +int cppi41_get_teardown_info(unsigned long addr, u32 *info);