psc.h revision 1.1
1 1.1 briggs /*- 2 1.1 briggs * Copyright (c) 1997 David Huang <khym (at) bga.com> 3 1.1 briggs * All rights reserved. 4 1.1 briggs * 5 1.1 briggs * Redistribution and use in source and binary forms, with or without 6 1.1 briggs * modification, are permitted provided that the following conditions 7 1.1 briggs * are met: 8 1.1 briggs * 1. Redistributions of source code must retain the above copyright 9 1.1 briggs * notice, this list of conditions and the following disclaimer. 10 1.1 briggs * 2. The name of the author may not be used to endorse or promote products 11 1.1 briggs * derived from this software without specific prior written permission 12 1.1 briggs * 13 1.1 briggs * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 14 1.1 briggs * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 15 1.1 briggs * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 16 1.1 briggs * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 17 1.1 briggs * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 18 1.1 briggs * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 19 1.1 briggs * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 20 1.1 briggs * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 21 1.1 briggs * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 22 1.1 briggs * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 23 1.1 briggs * 24 1.1 briggs */ 25 1.1 briggs 26 1.1 briggs /* 27 1.1 briggs * Some register definitions for the PSC, present only on the 28 1.1 briggs * Centris/Quadra 660av and the Quadra 840av. 29 1.1 briggs */ 30 1.1 briggs 31 1.1 briggs extern volatile u_int8_t *PSCBase; 32 1.1 briggs 33 1.1 briggs #define psc_reg1(r) (*((volatile u_int8_t *)(PSCBase+r))) 34 1.1 briggs #define psc_reg2(r) (*((volatile u_int16_t *)(PSCBase+r))) 35 1.1 briggs #define psc_reg4(r) (*((volatile u_int32_t *)(PSCBase+r))) 36 1.1 briggs 37 1.1 briggs int add_psc_lev3_intr __P((void (*)(void *), void *)); 38 1.1 briggs int add_psc_lev4_intr __P((int, int (*)(void *), void *)); 39 1.1 briggs int add_psc_lev5_intr __P((int, void (*)(void *), void *)); 40 1.1 briggs int add_psc_lev6_intr __P((int, void (*)(void *), void *)); 41 1.1 briggs 42 1.1 briggs int remove_psc_lev3_intr __P((void)); 43 1.1 briggs int remove_psc_lev4_intr __P((int)); 44 1.1 briggs int remove_psc_lev5_intr __P((int)); 45 1.1 briggs int remove_psc_lev6_intr __P((int)); 46 1.1 briggs 47 1.1 briggs /* 48 1.1 briggs * Reading an interrupt status register returns a mask of the 49 1.1 briggs * currently interrupting devices (one bit per device). Reading an 50 1.1 briggs * interrupt enable register returns a mask of the currently enabled 51 1.1 briggs * devices. Writing an interrupt enable register with the MSB set 52 1.1 briggs * enables the interrupts in the lower 4 bits, while writing with the 53 1.1 briggs * MSB clear disables the corresponding interrupts. 54 1.1 briggs * e.g. write 0x81 to enable device 0, write 0x86 to enable devices 1 55 1.1 briggs * and 2, write 0x02 to disable device 1. 56 1.1 briggs * 57 1.1 briggs * Level 3 device 0 is MACE 58 1.1 briggs * Level 4 device 0 is 3210 DSP? 59 1.1 briggs * Level 4 device 1 is SCC channel A (modem port) 60 1.1 briggs * Level 4 device 2 is SCC channel B (printer port) 61 1.1 briggs * Level 4 device 3 is MACE DMA completion 62 1.1 briggs * Level 5 device 0 is 3210 DSP? 63 1.1 briggs * Level 5 device 1 is 3210 DSP? 64 1.1 briggs * Level 6 device 0 is ? 65 1.1 briggs * Level 6 device 1 is ? 66 1.1 briggs * Level 6 device 2 is ? 67 1.1 briggs */ 68 1.1 briggs 69 1.1 briggs /* PSC interrupt registers */ 70 1.1 briggs #define PSC_LEV3_ISR 0x130 /* level 3 interrupt status register */ 71 1.1 briggs #define PSC_LEV3_IER 0x134 /* level 3 interrupt enable register */ 72 1.1 briggs #define PSCINTR_ENET 0 /* Ethernet interrupt */ 73 1.1 briggs 74 1.1 briggs #define PSC_LEV4_ISR 0x140 /* level 4 interrupt status register */ 75 1.1 briggs #define PSC_LEV4_IER 0x144 /* level 4 interrupt enable register */ 76 1.1 briggs #define PSCINTR_SCCA 1 /* SCC channel A interrupt */ 77 1.1 briggs #define PSCINTR_SCCB 2 /* SCC channel B interrupt */ 78 1.1 briggs #define PSCINTR_ENET_DMA 3 /* Ethernet DMA completion interrupt */ 79 1.1 briggs 80 1.1 briggs #define PSC_LEV5_ISR 0x150 /* level 5 interrupt status register */ 81 1.1 briggs #define PSC_LEV5_IER 0x154 /* level 5 interrupt enable register */ 82 1.1 briggs 83 1.1 briggs #define PSC_LEV6_ISR 0x160 /* level 6 interrupt status register */ 84 1.1 briggs #define PSC_LEV6_IER 0x164 /* level 6 interrupt enable register */ 85 1.1 briggs 86 1.1 briggs /* PSC DMA channel control registers */ 87 1.1 briggs #define PSC_ENETRD_CTL 0xc10 /* MACE receive DMA channel control/status */ 88 1.1 briggs #define PSC_ENETWR_CTL 0xc20 /* MACE transmit DMA channel control/status */ 89 1.1 briggs 90 1.1 briggs /* PSC DMA channels */ 91 1.1 briggs #define PSC_ENETRD_ADDR 0x1020 /* MACE receive DMA address register */ 92 1.1 briggs #define PSC_ENETRD_LEN 0x1024 /* MACE receive DMA buffer count */ 93 1.1 briggs #define PSC_ENETRD_CMD 0x1028 /* MACE receive DMA command register */ 94 1.1 briggs #define PSC_ENETWR_ADDR 0x1040 /* MACE transmit DMA address register */ 95 1.1 briggs #define PSC_ENETWR_LEN 0x1044 /* MACE transmit DMA length */ 96 1.1 briggs #define PSC_ENETWR_CMD 0x1048 /* MACE transmit DMA command register */ 97 1.1 briggs 98 1.1 briggs /* 99 1.1 briggs * PSC DMA channels are controlled by two sets of registers (see p.29 100 1.1 briggs * of the Quadra 840av and Centris 660av Developer Note). Add the 101 1.1 briggs * following offsets to get the desired register set. 102 1.1 briggs */ 103 1.1 briggs #define PSC_SET0 0x00 104 1.1 briggs #define PSC_SET1 0x10 105
Indexes created Tue Sep 23 07:09:52 GMT 2025