/* $NetBSD: am9513reg.h,v 1.3 2005/12/11 12:21:25 christos Exp $ */ /*- * Copyright (c) 2001 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Matthew Fredette. * * 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. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the NetBSD * Foundation, Inc. and its contributors. * 4. Neither the name of The NetBSD Foundation 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 NETBSD FOUNDATION, INC. 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 FOUNDATION 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 _AM9513REG_H #define _AM9513REG_H /* * Driver support for the Am9513 timer chip. See * http://www.amd.com/products/cpg/techdocs/misc/03402/03402.html * for data sheets. */ struct am9513 { u_int16_t am9513_clk_data; /* data register */ u_int16_t am9513_clk_cmd; /* command register */ }; #define AM9513_CLK_DATA 0 #define AM9513_CLK_CMD 2 /* * All of the below macros are for use in bitfields in the Counter * Mode (CM) Register. */ /* Gating control, CM[13:15]: */ /* * Legend: A[HL][LE]? * | | `-> L = level, E = edge * | `-> H = high, L = low * `-> active * * P1 = plus one, M1 = minus one */ #define AM9513_CM_GATING_NONE (0x0 << 13) #define AM9513_CM_GATING_AH_TCN_M1 (0x1 << 13) #define AM9513_CM_GATING_AHL_GATEN_P1 (0x2 << 13) #define AM9513_CM_GATING_AHL_GATEN_M1 (0x3 << 13) #define AM9513_CM_GATING_AHL_GATEN (0x4 << 13) #define AM9513_CM_GATING_ALL_GATEN (0x5 << 13) #define AM9513_CM_GATING_AHE_GATEN (0x6 << 13) #define AM9513_CM_GATING_ALE_GATEN (0x7 << 13) /* Source edge, CM[12]: */ #define AM9513_CM_SOURCE_EDGE_RISING (0 << 12) #define AM9513_CM_SOURCE_EDGE_FALLING (1 << 12) /* Count sources, CM[8:11]: */ #define AM9513_CM_SOURCE_TCN1 (0x0 << 8) #define AM9513_CM_SOURCE_SRC1 (0x1 << 8) #define AM9513_CM_SOURCE_SRC2 (0x2 << 8) #define AM9513_CM_SOURCE_SRC3 (0x3 << 8) #define AM9513_CM_SOURCE_SRC4 (0x4 << 8) #define AM9513_CM_SOURCE_SRC5 (0x5 << 8) #define AM9513_CM_SOURCE_GATE1 (0x6 << 8) #define AM9513_CM_SOURCE_GATE2 (0x7 << 8) #define AM9513_CM_SOURCE_GATE3 (0x8 << 8) #define AM9513_CM_SOURCE_GATE4 (0x9 << 8) #define AM9513_CM_SOURCE_GATE5 (0xA << 8) #define AM9513_CM_SOURCE_F1 (0xB << 8) #define AM9513_CM_SOURCE_F2 (0xC << 8) #define AM9513_CM_SOURCE_F3 (0xD << 8) #define AM9513_CM_SOURCE_F4 (0xE << 8) #define AM9513_CM_SOURCE_F5 (0xF << 8) /* Count control, CM[7]: */ #define AM9513_CM_SPECIAL_GATE_ENA (1 << 7) #define AM9513_CM_SPECIAL_GATE_DIS (0 << 7) /* Counter reload source, CM[6]: */ #define AM9513_CM_RELOAD_SOURCE_LOAD (0 << 6) #define AM9513_CM_RELOAD_SOURCE_LOAD_OR_HOLD (1 << 6) /* Counter repeat control, CM[5]: */ #define AM9513_CM_REPEAT_DIS (0 << 5) #define AM9513_CM_REPEAT_ENA (1 << 5) /* Counter type, CM[4]: */ #define AM9513_CM_TYPE_BIN (0 << 4) #define AM9513_CM_TYPE_BCD (1 << 4) /* Counter direction, CM[3]: */ #define AM9513_CM_DIR_DOWN (0 << 3) #define AM9513_CM_DIR_UP (1 << 3) /* Output control, CM[0:2]: */ #define AM9513_CM_OUTPUT_OL (0x0 << 0) /* inactive, output low */ #define AM9513_CM_OUTPUT_AHTCP (0x1 << 0) /* active high terminal count pulse */ #define AM9513_CM_OUTPUT_TC_TOGGLED (0x2 << 0) /* TC toggled */ #define AM9513_CM_OUTPUT_OHI (0x4 << 0) /* inactive, output high impedance */ #define AM9513_CM_OUTPUT_ALTCP (0x5 << 0) /* active low terminal count pulse */ /* The modes are various combinations of the above: */ /* Mode A: */ #define AM9513_CM_MODE_A (AM9513_CM_GATING_NONE \ | AM9513_CM_SPECIAL_GATE_DIS \ | AM9513_CM_RELOAD_SOURCE_LOAD \ | AM9513_CM_REPEAT_DIS) /* * Mode B is just like mode A, except you OR in the * AM9513_CM_GATING_ value for the *level* you want: */ #define AM9513_CM_MODE_B AM9513_CM_MODE_A /* * Mode C is just like mode A, except you OR in the * AM9513_CM_GATING_ value for the *edge* you want: */ #define AM9513_CM_MODE_C AM9513_CM_MODE_A /* Mode D: */ #define AM9513_CM_MODE_D (AM9513_CM_GATING_NONE \ | AM9513_CM_SPECIAL_GATE_DIS \ | AM9513_CM_RELOAD_SOURCE_LOAD \ | AM9513_CM_REPEAT_ENA) /* * Mode E is just like mode D, except you OR in the * AM9513_CM_GATING_ value for the *level* you want: */ #define AM9513_CM_MODE_E AM9513_CM_MODE_D /* * Mode F is just like mode D, except you OR in the * AM9513_CM_GATING_ value for the *edge* you want: */ #define AM9513_CM_MODE_F AM9513_CM_MODE_D /* Mode G: */ #define AM9513_CM_MODE_G (AM9513_CM_GATING_NONE \ | AM9513_CM_SPECIAL_GATE_DIS \ | AM9513_CM_RELOAD_SOURCE_LOAD_OR_HOLD \ | AM9513_CM_REPEAT_DIS) /* * Mode H is just like mode G, except you OR in the * AM9513_CM_GATING_ value for the *level* you want: */ #define AM9513_CM_MODE_H AM9513_CM_MODE_G /* * Mode I is just like mode G, except you OR in the * AM9513_CM_GATING_ value for the *edge* you want: */ #define AM9513_CM_MODE_I AM9513_CM_MODE_G /* Mode J: */ #define AM9513_CM_MODE_J (AM9513_CM_GATING_NONE \ | AM9513_CM_SPECIAL_GATE_DIS \ | AM9513_CM_RELOAD_SOURCE_LOAD_OR_HOLD \ | AM9513_CM_REPEAT_ENA) /* * Mode K is just like mode J, except you OR in the * AM9513_CM_GATING_ value for the *level* you want: */ #define AM9513_CM_MODE_K AM9513_CM_MODE_J /* * Mode L is just like mode J, except you OR in the * AM9513_CM_GATING_ value for the *edge* you want: */ #define AM9513_CM_MODE_L AM9513_CM_MODE_J /* Mode N: */ #define AM9513_CM_MODE_N (AM9513_CM_GATING_NONE \ | AM9513_CM_SPECIAL_GATE_ENA \ | AM9513_CM_RELOAD_SOURCE_LOAD \ | AM9513_CM_REPEAT_DIS) /* * Mode O is just like mode N, except you OR in the * AM9513_CM_GATING_ value for the *edge* you want: */ #define AM9513_CM_MODE_O AM9513_CM_MODE_N /* Mode Q; OR in the AM9513_CM_GATING_ value for the *level* you want: */ #define AM9513_CM_MODE_Q (AM9513_CM_GATING_NONE \ | AM9513_CM_SPECIAL_GATE_ENA \ | AM9513_CM_RELOAD_SOURCE_LOAD \ | AM9513_CM_REPEAT_ENA) /* * Mode R is just like mode N, except you OR in the * AM9513_CM_GATING_ value for the *edge* you want: */ #define AM9513_CM_MODE_R AM9513_CM_MODE_Q /* Mode S: */ #define AM9513_CM_MODE_S (AM9513_CM_GATING_NONE \ | AM9513_CM_SPECIAL_GATE_ENA \ | AM9513_CM_RELOAD_SOURCE_LOAD_OR_HOLD \ | AM9513_CM_REPEAT_DIS) /* Mode V: */ #define AM9513_CM_MODE_V (AM9513_CM_GATING_NONE \ | AM9513_CM_SPECIAL_GATE_ENA \ | AM9513_CM_RELOAD_SOURCE_LOAD_OR_HOLD \ | AM9513_CM_REPEAT_ENA) /* Given an AM9513_CM_SOURCE_F? value, return the divisor: */ #define AM9513_CM_SOURCE_Fn_DIV(func) (1 << (((func) - AM9513_CM_SOURCE_F1) >> 6)) /* * Given a basic frequency and an AM9513_CM_SOURCE_F? value, returns * the number of clock ticks for a certain frequency: */ #define AM9513_TICKS(basic, func, hz) (((basic) / AM9513_CM_SOURCE_Fn_DIV(func)) / (hz)) /* These are the timer numbers: */ #define AM9513_TIMER1 (1) #define AM9513_TIMER2 (2) #define AM9513_TIMER3 (3) #define AM9513_TIMER4 (4) #define AM9513_TIMER5 (5) /* * This macro is used to compose a bitmask of times for those * commands that take a bitmask: */ #define AM9513_TIMER_BIT(timer) (1 << ((timer) - 1)) /* When in 16-bit mode, the high 8 bits of every command must be ones: */ #define _AM9513_CMD(x) (0xFF00 | (x)) /* Commands: */ #define AM9513_CMD_LOAD_MODE(timer) _AM9513_CMD(0x00 | (timer)) #define AM9513_CMD_LOAD_LOAD(timer) _AM9513_CMD(0x08 | (timer)) #define AM9513_CMD_LOAD_HOLD(timer) _AM9513_CMD(0x10 | (timer)) #define AM9513_CMD_ARM(timers) _AM9513_CMD(0x20 | (timers)) #define AM9513_CMD_LOAD(timers) _AM9513_CMD(0x40 | (timers)) #define AM9513_CMD_LOAD_ARM(timers) _AM9513_CMD(0x60 | (timers)) #define AM9513_CMD_SAVE(timers) _AM9513_CMD(0xA0 | (timers)) #define AM9513_CMD_DISARM(timers) _AM9513_CMD(0xC0 | (timers)) #define AM9513_CMD_CLEAR_OUTPUT(timer) _AM9513_CMD(0xE0 | (timer)) #define AM9513_CMD_RESET _AM9513_CMD(0xFF) /* These are mode register values for various uses */ #define AM9513_TICK_MODE (AM9513_F2+0x22) /* F2 + Operating mode D */ #define AM9513_UART_MODE (AM9513_F1+0x22) /* F1 + Operating mode D */ #define AM9513_FAST_LO_MODE (AM9513_F3+0x28) /* F3, repeat, count up */ #define AM9513_FAST_HI_MODE (0x0028) /* TC of LO, repeat, count up */ #endif /* _AM9513REG_H */