/* vim: tabstop=4 shiftwidth=4 noexpandtab * This file is part of ToaruOS and is released under the terms * of the NCSA / University of Illinois License - see LICENSE.md * Copyright (C) 2015 Michael Gerow * Copyright (C) 2015 Kevin Lange * * Driver for the Intel AC'97. * * See . */ #include #include #include #include #include #include #include #include /* Utility macros */ #define N_ELEMENTS(arr) (sizeof(arr) / sizeof((arr)[0])) /* BARs! */ #define AC97_NAMBAR 0x10 /* Native Audio Mixer Base Address Register */ #define AC97_NABMBAR 0x14 /* Native Audio Bus Mastering Base Address Register */ /* Bus mastering IO port offsets */ #define AC97_PO_BDBAR 0x10 /* PCM out buffer descriptor BAR */ #define AC97_PO_CIV 0x14 /* PCM out current index value */ #define AC97_PO_LVI 0x15 /* PCM out last valid index */ #define AC97_PO_SR 0x16 /* PCM out status register */ #define AC97_PO_PICB 0x18 /* PCM out position in current buffer register */ #define AC97_PO_CR 0x1B /* PCM out control register */ /* Bus mastering misc */ /* Buffer descriptor list constants */ #define AC97_BDL_LEN 32 /* Buffer descriptor list length */ #define AC97_BDL_BUFFER_LEN 0x1000 /* Length of buffer in BDL */ #define AC97_CL_GET_LENGTH(cl) ((cl) & 0xFFFF) /* Decode length from cl */ #define AC97_CL_SET_LENGTH(cl, v) ((cl) = (v) & 0xFFFF) /* Encode length to cl */ #define AC97_CL_BUP (1 << 30) /* Buffer underrun policy in cl */ #define AC97_CL_IOC (1 << 31) /* Interrupt on completion flag in cl */ /* PCM out control register flags */ #define AC97_X_CR_RPBM (1 << 0) /* Run/pause bus master */ #define AC97_X_CR_RR (1 << 1) /* Reset registers */ #define AC97_X_CR_LVBIE (1 << 2) /* Last valid buffer interrupt enable */ #define AC97_X_CR_FEIE (1 << 3) /* FIFO error interrupt enable */ #define AC97_X_CR_IOCE (1 << 4) /* Interrupt on completion enable */ /* Status register flags */ #define AC97_X_SR_DCH (1 << 0) /* DMA controller halted */ #define AC97_X_SR_CELV (1 << 1) /* Current equals last valid */ #define AC97_X_SR_LVBCI (1 << 2) /* Last valid buffer completion interrupt */ #define AC97_X_SR_BCIS (1 << 3) /* Buffer completion interrupt status */ #define AC97_X_SR_FIFOE (1 << 3) /* FIFO error */ /* Mixer IO port offsets */ #define AC97_RESET 0x00 #define AC97_MASTER_VOLUME 0x02 #define AC97_AUX_OUT_VOLUME 0x04 #define AC97_MONO_VOLUME 0x06 #define AC97_PCM_OUT_VOLUME 0x18 /* snd values */ #define AC97_SND_NAME "Intel AC'97" #define AC97_PLAYBACK_SPEED 48000 #define AC97_PLAYBACK_FORMAT SND_FORMAT_L16SLE /* An entry in a buffer dscriptor list */ typedef struct { uint32_t pointer; /* Pointer to buffer */ uint32_t cl; /* Control values and buffer length */ } __attribute__((packed)) ac97_bdl_entry_t; typedef struct { uint32_t pci_device; uint16_t nabmbar; /* Native audio bus mastring BAR */ uint16_t nambar; /* Native audio mixing BAR */ size_t irq; /* This ac97's irq */ uint8_t lvi; /* The currently set last valid index */ ac97_bdl_entry_t * bdl; /* Buffer descriptor list */ uint16_t * bufs[AC97_BDL_LEN]; /* Virtual addresses for buffers in BDL */ uint32_t bdl_p; } ac97_device_t; static ac97_device_t _device; static snd_device_t _snd = { AC97_SND_NAME, &_device, AC97_PLAYBACK_SPEED, AC97_PLAYBACK_FORMAT, }; /* * This could be unnecessary if we instead allocate just two buffers and make * the ac97 think there are more. */ static void find_ac97(uint32_t device, uint16_t vendorid, uint16_t deviceid, void * extra) { ac97_device_t * ac97 = extra; if ((vendorid == 0x8086) && (deviceid == 0x2415)) { ac97->pci_device = device; } } DEFINE_SHELL_FUNCTION(ac97_status, "[debug] AC'97 status values") { if (!_device.pci_device) { fprintf(tty, "No AC'97 device found.\n"); return 1; } fprintf(tty, "AC'97 audio device is at 0x%x.\n", _device.pci_device); size_t irq = pci_read_field(_device.pci_device, PCI_INTERRUPT_LINE, 1); fprintf(tty, "IRQ: %d\n", irq); uint16_t command_register = pci_read_field(_device.pci_device, PCI_COMMAND, 2); fprintf(tty, "COMMAND: 0x%04x\n", command_register); fprintf(tty, "NABMBAR: 0x%04x\n", pci_read_field(_device.pci_device, AC97_NABMBAR, 2)); fprintf(tty, "PO_BDBAR: 0x%08x\n", inportl(_device.nabmbar + AC97_PO_BDBAR)); if (_device.bdl) { for (int i = 0; i < AC97_BDL_LEN; i++) { fprintf(tty, "bdl[%d].pointer: 0x%x\n", i, _device.bdl[i].pointer); fprintf(tty, "bdl[%d].cl: 0x%x\n", i, _device.bdl[i].cl); } } fprintf(tty, "PO_CIV: %d\n", inportb(_device.nabmbar + AC97_PO_CIV)); fprintf(tty, "PO_PICB: 0x%04x\n", inportb(_device.nabmbar + AC97_PO_PICB)); fprintf(tty, "PO_CR: 0x%02x\n", inportb(_device.nabmbar + AC97_PO_CR)); fprintf(tty, "PO_LVI: 0x%02x\n", inportb(_device.nabmbar + AC97_PO_LVI)); return 0; } #define DIVISION 128 static void irq_handler(struct regs * regs) { uint16_t sr = inports(_device.nabmbar + AC97_PO_SR); if (sr & AC97_X_SR_LVBCI) { outports(_device.nabmbar + AC97_PO_SR, AC97_X_SR_LVBCI); } else if (sr & AC97_X_SR_BCIS) { size_t f = (_device.lvi + 2) % AC97_BDL_LEN; for (size_t i = 0; i < AC97_BDL_BUFFER_LEN * sizeof(*_device.bufs[0]); i += DIVISION) { snd_request_buf(&_snd, DIVISION, (uint8_t *)_device.bufs[f] + i); switch_task(1); } _device.lvi = (_device.lvi + 1) % AC97_BDL_LEN; outportb(_device.nabmbar + AC97_PO_LVI, _device.lvi); outports(_device.nabmbar + AC97_PO_SR, AC97_X_SR_BCIS); } else if (sr & AC97_X_SR_FIFOE) { outports(_device.nabmbar + AC97_PO_SR, AC97_X_SR_FIFOE); } irq_ack(_device.irq); } static int init(void) { debug_print(NOTICE, "Initializing AC97"); pci_scan(&find_ac97, -1, &_device); if (!_device.pci_device) { return 1; } BIND_SHELL_FUNCTION(ac97_status); _device.nabmbar = pci_read_field(_device.pci_device, AC97_NABMBAR, 2) & ((uint32_t) -1) << 1; _device.nambar = pci_read_field(_device.pci_device, PCI_BAR0, 4) & ((uint32_t) -1) << 1; _device.irq = pci_read_field(_device.pci_device, PCI_INTERRUPT_LINE, 1); if (!irq_is_handler_free(_device.irq)) { debug_print(ERROR, "AC97 IRQ conflict: IRQ %d already in use", _device.irq); return 1; } irq_install_handler(_device.irq, irq_handler); /* Enable all matter of interrupts */ outportb(_device.nabmbar + AC97_PO_CR, AC97_X_CR_FEIE | AC97_X_CR_IOCE); /* Enable bus mastering and disable memory mapped space */ pci_write_field(_device.pci_device, PCI_COMMAND, 2, 0x5); /* Put ourselves at a reasonable volume. */ uint16_t volume = 0x03 | (0x03 << 8); outports(_device.nambar + AC97_MASTER_VOLUME, volume); outports(_device.nambar + AC97_PCM_OUT_VOLUME, volume); /* Allocate our BDL and our buffers */ _device.bdl = (void *)kmalloc_p(AC97_BDL_LEN * sizeof(*_device.bdl), &_device.bdl_p); memset(_device.bdl, 0, AC97_BDL_LEN * sizeof(*_device.bdl)); for (int i = 0; i < AC97_BDL_LEN; i++) { _device.bufs[i] = (uint16_t *)kmalloc_p(AC97_BDL_BUFFER_LEN * sizeof(*_device.bufs[0]), &_device.bdl[i].pointer); memset(_device.bufs[i], 0, AC97_BDL_BUFFER_LEN * sizeof(*_device.bufs[0])); AC97_CL_SET_LENGTH(_device.bdl[i].cl, AC97_BDL_BUFFER_LEN); /* Set all buffers to interrupt */ _device.bdl[i].cl |= AC97_CL_IOC; } /* Tell the ac97 where our BDL is */ outportl(_device.nabmbar + AC97_PO_BDBAR, _device.bdl_p); /* Set the LVI to be the last index */ _device.lvi = 2; outportb(_device.nabmbar + AC97_PO_LVI, _device.lvi); snd_register(&_snd); /* Start things playing */ outportb(_device.nabmbar + AC97_PO_CR, inportb(_device.nabmbar + AC97_PO_CR) | AC97_X_CR_RPBM); debug_print(NOTICE, "AC97 initialized successfully"); return 0; } static int fini(void) { snd_unregister(&_snd); free(_device.bdl); for (int i = 0; i < AC97_BDL_LEN; i++) { free(_device.bufs[i]); } return 0; } MODULE_DEF(ac97, init, fini); MODULE_DEPENDS(debugshell); MODULE_DEPENDS(snd);