/****************************************************************************** * Filename: hw_udma_h * Revised: 2017-01-31 09:37:48 +0100 (Tue, 31 Jan 2017) * Revision: 48345 * * Copyright (c) 2015 - 2017, Texas Instruments Incorporated * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1) Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2) Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * 3) Neither the name of the ORGANIZATION nor the names of its contributors may * be used to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * ******************************************************************************/ #ifndef __HW_UDMA_H__ #define __HW_UDMA_H__ //***************************************************************************** // // This section defines the register offsets of // UDMA component // //***************************************************************************** // Status #define UDMA_O_STATUS 0x00000000 // Configuration #define UDMA_O_CFG 0x00000004 // Channel Control Data Base Pointer #define UDMA_O_CTRL 0x00000008 // Channel Alternate Control Data Base Pointer #define UDMA_O_ALTCTRL 0x0000000C // Channel Wait On Request Status #define UDMA_O_WAITONREQ 0x00000010 // Channel Software Request #define UDMA_O_SOFTREQ 0x00000014 // Channel Set UseBurst #define UDMA_O_SETBURST 0x00000018 // Channel Clear UseBurst #define UDMA_O_CLEARBURST 0x0000001C // Channel Set Request Mask #define UDMA_O_SETREQMASK 0x00000020 // Clear Channel Request Mask #define UDMA_O_CLEARREQMASK 0x00000024 // Set Channel Enable #define UDMA_O_SETCHANNELEN 0x00000028 // Clear Channel Enable #define UDMA_O_CLEARCHANNELEN 0x0000002C // Channel Set Primary-Alternate #define UDMA_O_SETCHNLPRIALT 0x00000030 // Channel Clear Primary-Alternate #define UDMA_O_CLEARCHNLPRIALT 0x00000034 // Set Channel Priority #define UDMA_O_SETCHNLPRIORITY 0x00000038 // Clear Channel Priority #define UDMA_O_CLEARCHNLPRIORITY 0x0000003C // Error Status and Clear #define UDMA_O_ERROR 0x0000004C // Channel Request Done #define UDMA_O_REQDONE 0x00000504 // Channel Request Done Mask #define UDMA_O_DONEMASK 0x00000520 //***************************************************************************** // // Register: UDMA_O_STATUS // //***************************************************************************** // Field: [31:28] TEST // // // 0x0: Controller does not include the integration test logic // 0x1: Controller includes the integration test logic // 0x2: Undefined // ... // 0xF: Undefined #define UDMA_STATUS_TEST_W 4 #define UDMA_STATUS_TEST_M 0xF0000000 #define UDMA_STATUS_TEST_S 28 // Field: [20:16] TOTALCHANNELS // // Register value returns number of available uDMA channels minus one. For // example a read out value of: // // 0x00: Show that the controller is configured to use 1 uDMA channel // 0x01: Shows that the controller is configured to use 2 uDMA channels // ... // 0x1F: Shows that the controller is configured to use 32 uDMA channels // (32-1=31=0x1F) #define UDMA_STATUS_TOTALCHANNELS_W 5 #define UDMA_STATUS_TOTALCHANNELS_M 0x001F0000 #define UDMA_STATUS_TOTALCHANNELS_S 16 // Field: [7:4] STATE // // Current state of the control state machine. State can be one of the // following: // // 0x0: Idle // 0x1: Reading channel controller data // 0x2: Reading source data end pointer // 0x3: Reading destination data end pointer // 0x4: Reading source data // 0x5: Writing destination data // 0x6: Waiting for uDMA request to clear // 0x7: Writing channel controller data // 0x8: Stalled // 0x9: Done // 0xA: Peripheral scatter-gather transition // 0xB: Undefined // ... // 0xF: Undefined. #define UDMA_STATUS_STATE_W 4 #define UDMA_STATUS_STATE_M 0x000000F0 #define UDMA_STATUS_STATE_S 4 // Field: [0] MASTERENABLE // // Shows the enable status of the controller as configured by CFG.MASTERENABLE: // // 0: Controller is disabled // 1: Controller is enabled #define UDMA_STATUS_MASTERENABLE 0x00000001 #define UDMA_STATUS_MASTERENABLE_BITN 0 #define UDMA_STATUS_MASTERENABLE_M 0x00000001 #define UDMA_STATUS_MASTERENABLE_S 0 //***************************************************************************** // // Register: UDMA_O_CFG // //***************************************************************************** // Field: [7:5] PRTOCTRL // // Sets the AHB-Lite bus protocol protection state by controlling the AHB // signal HProt[3:1] as follows: // // Bit [7] Controls HProt[3] to indicate if a cacheable access is occurring. // Bit [6] Controls HProt[2] to indicate if a bufferable access is occurring. // Bit [5] Controls HProt[1] to indicate if a privileged access is occurring. // // When bit [n] = 1 then the corresponding HProt bit is high. // When bit [n] = 0 then the corresponding HProt bit is low. // // This field controls HProt[3:1] signal for all transactions initiated by uDMA // except two transactions below: // - the read from the address indicated by source address pointer // - the write to the address indicated by destination address pointer // HProt[3:1] for these two exceptions can be controlled by dedicated fields in // the channel configutation descriptor. #define UDMA_CFG_PRTOCTRL_W 3 #define UDMA_CFG_PRTOCTRL_M 0x000000E0 #define UDMA_CFG_PRTOCTRL_S 5 // Field: [0] MASTERENABLE // // Enables the controller: // // 0: Disables the controller // 1: Enables the controller #define UDMA_CFG_MASTERENABLE 0x00000001 #define UDMA_CFG_MASTERENABLE_BITN 0 #define UDMA_CFG_MASTERENABLE_M 0x00000001 #define UDMA_CFG_MASTERENABLE_S 0 //***************************************************************************** // // Register: UDMA_O_CTRL // //***************************************************************************** // Field: [31:10] BASEPTR // // This register point to the base address for the primary data structures of // each DMA channel. This is not stored in module, but in system memory, thus // space must be allocated for this usage when DMA is in usage #define UDMA_CTRL_BASEPTR_W 22 #define UDMA_CTRL_BASEPTR_M 0xFFFFFC00 #define UDMA_CTRL_BASEPTR_S 10 //***************************************************************************** // // Register: UDMA_O_ALTCTRL // //***************************************************************************** // Field: [31:0] BASEPTR // // This register shows the base address for the alternate data structures and // is calculated by module, thus read only #define UDMA_ALTCTRL_BASEPTR_W 32 #define UDMA_ALTCTRL_BASEPTR_M 0xFFFFFFFF #define UDMA_ALTCTRL_BASEPTR_S 0 //***************************************************************************** // // Register: UDMA_O_WAITONREQ // //***************************************************************************** // Field: [31:0] CHNLSTATUS // // Channel wait on request status: // // Bit [Ch] = 0: Once uDMA receives a single or burst request on channel Ch, // this channel may come out of active state even if request is still present. // Bit [Ch] = 1: Once uDMA receives a single or burst request on channel Ch, it // keeps channel Ch in active state until the requests are deasserted. This // handshake is necessary for channels where the requester is in an // asynchronous domain or can run at slower clock speed than uDMA #define UDMA_WAITONREQ_CHNLSTATUS_W 32 #define UDMA_WAITONREQ_CHNLSTATUS_M 0xFFFFFFFF #define UDMA_WAITONREQ_CHNLSTATUS_S 0 //***************************************************************************** // // Register: UDMA_O_SOFTREQ // //***************************************************************************** // Field: [31:0] CHNLS // // Set the appropriate bit to generate a software uDMA request on the // corresponding uDMA channel // // Bit [Ch] = 0: Does not create a uDMA request for channel Ch // Bit [Ch] = 1: Creates a uDMA request for channel Ch // // Writing to a bit where a uDMA channel is not implemented does not create a // uDMA request for that channel #define UDMA_SOFTREQ_CHNLS_W 32 #define UDMA_SOFTREQ_CHNLS_M 0xFFFFFFFF #define UDMA_SOFTREQ_CHNLS_S 0 //***************************************************************************** // // Register: UDMA_O_SETBURST // //***************************************************************************** // Field: [31:0] CHNLS // // Returns the useburst status, or disables individual channels from generating // single uDMA requests. The value R is the arbitration rate and stored in the // controller data structure. // // Read as: // // Bit [Ch] = 0: uDMA channel Ch responds to both burst and single requests on // channel C. The controller performs 2^R, or single, bus transfers. // // Bit [Ch] = 1: uDMA channel Ch does not respond to single transfer requests. // The controller only responds to burst transfer requests and performs 2^R // transfers. // // Write as: // Bit [Ch] = 0: No effect. Use the CLEARBURST.CHNLS to set bit [Ch] to 0. // Bit [Ch] = 1: Disables single transfer requests on channel Ch. The // controller performs 2^R transfers for burst requests. // // Writing to a bit where a uDMA channel is not implemented has no effect #define UDMA_SETBURST_CHNLS_W 32 #define UDMA_SETBURST_CHNLS_M 0xFFFFFFFF #define UDMA_SETBURST_CHNLS_S 0 //***************************************************************************** // // Register: UDMA_O_CLEARBURST // //***************************************************************************** // Field: [31:0] CHNLS // // Set the appropriate bit to enable single transfer requests. // // Write as: // // Bit [Ch] = 0: No effect. Use the SETBURST.CHNLS to disable single transfer // requests. // // Bit [Ch] = 1: Enables single transfer requests on channel Ch. // // Writing to a bit where a DMA channel is not implemented has no effect. #define UDMA_CLEARBURST_CHNLS_W 32 #define UDMA_CLEARBURST_CHNLS_M 0xFFFFFFFF #define UDMA_CLEARBURST_CHNLS_S 0 //***************************************************************************** // // Register: UDMA_O_SETREQMASK // //***************************************************************************** // Field: [31:0] CHNLS // // Returns the burst and single request mask status, or disables the // corresponding channel from generating uDMA requests. // // Read as: // Bit [Ch] = 0: External requests are enabled for channel Ch. // Bit [Ch] = 1: External requests are disabled for channel Ch. // // Write as: // Bit [Ch] = 0: No effect. Use the CLEARREQMASK.CHNLS to enable uDMA requests. // Bit [Ch] = 1: Disables uDMA burst request channel [C] and uDMA single // request channel [C] input from generating uDMA requests. // // Writing to a bit where a uDMA channel is not implemented has no effect #define UDMA_SETREQMASK_CHNLS_W 32 #define UDMA_SETREQMASK_CHNLS_M 0xFFFFFFFF #define UDMA_SETREQMASK_CHNLS_S 0 //***************************************************************************** // // Register: UDMA_O_CLEARREQMASK // //***************************************************************************** // Field: [31:0] CHNLS // // Set the appropriate bit to enable DMA request for the channel. // // Write as: // Bit [Ch] = 0: No effect. Use the SETREQMASK.CHNLS to disable channel C from // generating requests. // Bit [Ch] = 1: Enables channel [C] to generate DMA requests. // // Writing to a bit where a DMA channel is not implemented has no effect. #define UDMA_CLEARREQMASK_CHNLS_W 32 #define UDMA_CLEARREQMASK_CHNLS_M 0xFFFFFFFF #define UDMA_CLEARREQMASK_CHNLS_S 0 //***************************************************************************** // // Register: UDMA_O_SETCHANNELEN // //***************************************************************************** // Field: [31:0] CHNLS // // Returns the enable status of the channels, or enables the corresponding // channels. // // Read as: // Bit [Ch] = 0: Channel Ch is disabled. // Bit [Ch] = 1: Channel Ch is enabled. // // Write as: // Bit [Ch] = 0: No effect. Use the CLEARCHANNELEN.CHNLS to disable a channel // Bit [Ch] = 1: Enables channel Ch // // Writing to a bit where a DMA channel is not implemented has no effect #define UDMA_SETCHANNELEN_CHNLS_W 32 #define UDMA_SETCHANNELEN_CHNLS_M 0xFFFFFFFF #define UDMA_SETCHANNELEN_CHNLS_S 0 //***************************************************************************** // // Register: UDMA_O_CLEARCHANNELEN // //***************************************************************************** // Field: [31:0] CHNLS // // Set the appropriate bit to disable the corresponding uDMA channel. // // Write as: // Bit [Ch] = 0: No effect. Use the SETCHANNELEN.CHNLS to enable uDMA channels. // Bit [Ch] = 1: Disables channel Ch // // Writing to a bit where a uDMA channel is not implemented has no effect #define UDMA_CLEARCHANNELEN_CHNLS_W 32 #define UDMA_CLEARCHANNELEN_CHNLS_M 0xFFFFFFFF #define UDMA_CLEARCHANNELEN_CHNLS_S 0 //***************************************************************************** // // Register: UDMA_O_SETCHNLPRIALT // //***************************************************************************** // Field: [31:0] CHNLS // // Returns the channel control data structure status, or selects the alternate // data structure for the corresponding uDMA channel. // // Read as: // Bit [Ch] = 0: uDMA channel Ch is using the primary data structure. // Bit [Ch] = 1: uDMA channel Ch is using the alternate data structure. // // Write as: // Bit [Ch] = 0: No effect. Use the CLEARCHNLPRIALT.CHNLS to disable a channel // Bit [Ch] = 1: Selects the alternate data structure for channel Ch // // Writing to a bit where a uDMA channel is not implemented has no effect #define UDMA_SETCHNLPRIALT_CHNLS_W 32 #define UDMA_SETCHNLPRIALT_CHNLS_M 0xFFFFFFFF #define UDMA_SETCHNLPRIALT_CHNLS_S 0 //***************************************************************************** // // Register: UDMA_O_CLEARCHNLPRIALT // //***************************************************************************** // Field: [31:0] CHNLS // // Clears the appropriate bit to select the primary data structure for the // corresponding uDMA channel. // // Write as: // Bit [Ch] = 0: No effect. Use the SETCHNLPRIALT.CHNLS to select the alternate // data structure. // Bit [Ch] = 1: Selects the primary data structure for channel Ch. // // Writing to a bit where a uDMA channel is not implemented has no effect #define UDMA_CLEARCHNLPRIALT_CHNLS_W 32 #define UDMA_CLEARCHNLPRIALT_CHNLS_M 0xFFFFFFFF #define UDMA_CLEARCHNLPRIALT_CHNLS_S 0 //***************************************************************************** // // Register: UDMA_O_SETCHNLPRIORITY // //***************************************************************************** // Field: [31:0] CHNLS // // Returns the channel priority mask status, or sets the channel priority to // high. // // Read as: // Bit [Ch] = 0: uDMA channel Ch is using the default priority level. // Bit [Ch] = 1: uDMA channel Ch is using a high priority level. // // Write as: // Bit [Ch] = 0: No effect. Use the CLEARCHNLPRIORITY.CHNLS to set channel Ch // to the default priority level. // Bit [Ch] = 1: Channel Ch uses the high priority level. // // Writing to a bit where a uDMA channel is not implemented has no effect #define UDMA_SETCHNLPRIORITY_CHNLS_W 32 #define UDMA_SETCHNLPRIORITY_CHNLS_M 0xFFFFFFFF #define UDMA_SETCHNLPRIORITY_CHNLS_S 0 //***************************************************************************** // // Register: UDMA_O_CLEARCHNLPRIORITY // //***************************************************************************** // Field: [31:0] CHNLS // // Clear the appropriate bit to select the default priority level for the // specified uDMA channel. // // Write as: // Bit [Ch] = 0: No effect. Use the SETCHNLPRIORITY.CHNLS to set channel Ch to // the high priority level. // Bit [Ch] = 1: Channel Ch uses the default priority level. // // Writing to a bit where a uDMA channel is not implemented has no effect #define UDMA_CLEARCHNLPRIORITY_CHNLS_W 32 #define UDMA_CLEARCHNLPRIORITY_CHNLS_M 0xFFFFFFFF #define UDMA_CLEARCHNLPRIORITY_CHNLS_S 0 //***************************************************************************** // // Register: UDMA_O_ERROR // //***************************************************************************** // Field: [0] STATUS // // Returns the status of bus error flag in uDMA, or clears this bit // // Read as: // // 0: No bus error detected // 1: Bus error detected // // Write as: // // 0: No effect, status of bus error flag is unchanged. // 1: Clears the bus error flag. #define UDMA_ERROR_STATUS 0x00000001 #define UDMA_ERROR_STATUS_BITN 0 #define UDMA_ERROR_STATUS_M 0x00000001 #define UDMA_ERROR_STATUS_S 0 //***************************************************************************** // // Register: UDMA_O_REQDONE // //***************************************************************************** // Field: [31:0] CHNLS // // Reflects the uDMA done status for the given channel, channel [Ch]. It's a // sticky done bit. Unless cleared by writing a 1, it holds the value of 1. // // Read as: // Bit [Ch] = 0: Request has not completed for channel Ch // Bit [Ch] = 1: Request has completed for the channel Ch // // Writing a 1 to individual bits would clear the corresponding bit. // // Write as: // Bit [Ch] = 0: No effect. // Bit [Ch] = 1: The corresponding [Ch] bit is cleared and is set to 0 #define UDMA_REQDONE_CHNLS_W 32 #define UDMA_REQDONE_CHNLS_M 0xFFFFFFFF #define UDMA_REQDONE_CHNLS_S 0 //***************************************************************************** // // Register: UDMA_O_DONEMASK // //***************************************************************************** // Field: [31:0] CHNLS // // Controls the propagation of the uDMA done and active state to the assigned // peripheral. Specifically used for software channels. // // Read as: // Bit [Ch] = 0: uDMA done and active state for channel Ch is not blocked from // reaching to the peripherals. // Note that the uDMA done state for channel [Ch] is blocked from contributing // to generation of combined uDMA done signal // // Bit [Ch] = 1: uDMA done and active state for channel Ch is blocked from // reaching to the peripherals. // Note that the uDMA done state for channel [Ch] is not blocked from // contributing to generation of combined uDMA done signal // // Write as: // Bit [Ch] = 0: Allows uDMA done and active stat to propagate to the // peripherals. // Note that this disables uDMA done state for channel [Ch] from contributing // to generation of combined uDMA done signal // // Bit [Ch] = 1: Blocks uDMA done and active state to propagate to the // peripherals. // Note that this enables uDMA done for channel [Ch] to contribute to // generation of combined uDMA done signal. #define UDMA_DONEMASK_CHNLS_W 32 #define UDMA_DONEMASK_CHNLS_M 0xFFFFFFFF #define UDMA_DONEMASK_CHNLS_S 0 #endif // __UDMA__