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author | Linus Torvalds <torvalds@g5.osdl.org> | 2006-01-16 20:23:21 -0800 |
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committer | Linus Torvalds <torvalds@g5.osdl.org> | 2006-01-16 20:23:21 -0800 |
commit | cd535057f946f8e803db7d485652904af0a2e5f5 (patch) | |
tree | ebb82a5b818830d2e254cd5c6a0f5e910562a6c4 | |
parent | f74e6670c4a788c9a0c52ab2036d8ac6be12f1d8 (diff) | |
parent | 506eecde44d54e838c61c2af38630e8ebb16363e (diff) | |
download | op-kernel-dev-cd535057f946f8e803db7d485652904af0a2e5f5.zip op-kernel-dev-cd535057f946f8e803db7d485652904af0a2e5f5.tar.gz |
Merge branch 'for-linus' of master.kernel.org:/pub/scm/linux/kernel/git/scjody/ieee1394
-rw-r--r-- | drivers/ieee1394/amdtp.c | 1297 | ||||
-rw-r--r-- | drivers/ieee1394/amdtp.h | 84 | ||||
-rw-r--r-- | drivers/ieee1394/cmp.c | 311 | ||||
-rw-r--r-- | drivers/ieee1394/cmp.h | 31 |
4 files changed, 0 insertions, 1723 deletions
diff --git a/drivers/ieee1394/amdtp.c b/drivers/ieee1394/amdtp.c deleted file mode 100644 index 17390d7..0000000 --- a/drivers/ieee1394/amdtp.c +++ /dev/null @@ -1,1297 +0,0 @@ -/* -*- c-basic-offset: 8 -*- - * - * amdtp.c - Audio and Music Data Transmission Protocol Driver - * Copyright (C) 2001 Kristian Høgsberg - * - * This program is free software; you can redistribute it and/or modify - * it under the terms of the GNU General Public License as published by - * the Free Software Foundation; either version 2 of the License, or - * (at your option) any later version. - * - * This program is distributed in the hope that 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. - */ - -/* OVERVIEW - * -------- - * - * The AMDTP driver is designed to expose the IEEE1394 bus as a - * regular OSS soundcard, i.e. you can link /dev/dsp to /dev/amdtp and - * then your favourite MP3 player, game or whatever sound program will - * output to an IEEE1394 isochronous channel. The signal destination - * could be a set of IEEE1394 loudspeakers (if and when such things - * become available) or an amplifier with IEEE1394 input (like the - * Sony STR-LSA1). The driver only handles the actual streaming, some - * connection management is also required for this to actually work. - * That is outside the scope of this driver, and furthermore it is not - * really standardized yet. - * - * The Audio and Music Data Tranmission Protocol is available at - * - * http://www.1394ta.org/Download/Technology/Specifications/2001/AM20Final-jf2.pdf - * - * - * TODO - * ---- - * - * - We should be able to change input sample format between LE/BE, as - * we already shift the bytes around when we construct the iso - * packets. - * - * - Fix DMA stop after bus reset! - * - * - Clean up iso context handling in ohci1394. - * - * - * MAYBE TODO - * ---------- - * - * - Receive data for local playback or recording. Playback requires - * soft syncing with the sound card. - * - * - Signal processing, i.e. receive packets, do some processing, and - * transmit them again using the same packet structure and timestamps - * offset by processing time. - * - * - Maybe make an ALSA interface, that is, create a file_ops - * implementation that recognizes ALSA ioctls and uses defaults for - * things that can't be controlled through ALSA (iso channel). - * - * Changes: - * - * - Audit copy_from_user in amdtp_write. - * Daniele Bellucci <bellucda@tiscali.it> - * - */ - -#include <linux/module.h> -#include <linux/list.h> -#include <linux/sched.h> -#include <linux/types.h> -#include <linux/fs.h> -#include <linux/ioctl.h> -#include <linux/wait.h> -#include <linux/pci.h> -#include <linux/interrupt.h> -#include <linux/poll.h> -#include <linux/compat.h> -#include <linux/cdev.h> -#include <asm/uaccess.h> -#include <asm/atomic.h> - -#include "hosts.h" -#include "highlevel.h" -#include "ieee1394.h" -#include "ieee1394_core.h" -#include "ohci1394.h" - -#include "amdtp.h" -#include "cmp.h" - -#define FMT_AMDTP 0x10 -#define FDF_AM824 0x00 -#define FDF_SFC_32KHZ 0x00 -#define FDF_SFC_44K1HZ 0x01 -#define FDF_SFC_48KHZ 0x02 -#define FDF_SFC_88K2HZ 0x03 -#define FDF_SFC_96KHZ 0x04 -#define FDF_SFC_176K4HZ 0x05 -#define FDF_SFC_192KHZ 0x06 - -struct descriptor_block { - struct output_more_immediate { - u32 control; - u32 pad0; - u32 skip; - u32 pad1; - u32 header[4]; - } header_desc; - - struct output_last { - u32 control; - u32 data_address; - u32 branch; - u32 status; - } payload_desc; -}; - -struct packet { - struct descriptor_block *db; - dma_addr_t db_bus; - struct iso_packet *payload; - dma_addr_t payload_bus; -}; - -#include <asm/byteorder.h> - -#if defined __BIG_ENDIAN_BITFIELD - -struct iso_packet { - /* First quadlet */ - unsigned int dbs : 8; - unsigned int eoh0 : 2; - unsigned int sid : 6; - - unsigned int dbc : 8; - unsigned int fn : 2; - unsigned int qpc : 3; - unsigned int sph : 1; - unsigned int reserved : 2; - - /* Second quadlet */ - unsigned int fdf : 8; - unsigned int eoh1 : 2; - unsigned int fmt : 6; - - unsigned int syt : 16; - - quadlet_t data[0]; -}; - -#elif defined __LITTLE_ENDIAN_BITFIELD - -struct iso_packet { - /* First quadlet */ - unsigned int sid : 6; - unsigned int eoh0 : 2; - unsigned int dbs : 8; - - unsigned int reserved : 2; - unsigned int sph : 1; - unsigned int qpc : 3; - unsigned int fn : 2; - unsigned int dbc : 8; - - /* Second quadlet */ - unsigned int fmt : 6; - unsigned int eoh1 : 2; - unsigned int fdf : 8; - - unsigned int syt : 16; - - quadlet_t data[0]; -}; - -#else - -#error Unknown bitfield type - -#endif - -struct fraction { - int integer; - int numerator; - int denominator; -}; - -#define PACKET_LIST_SIZE 256 -#define MAX_PACKET_LISTS 4 - -struct packet_list { - struct list_head link; - int last_cycle_count; - struct packet packets[PACKET_LIST_SIZE]; -}; - -#define BUFFER_SIZE 128 - -/* This implements a circular buffer for incoming samples. */ - -struct buffer { - size_t head, tail, length, size; - unsigned char data[0]; -}; - -struct stream { - int iso_channel; - int format; - int rate; - int dimension; - int fdf; - int mode; - int sample_format; - struct cmp_pcr *opcr; - - /* Input samples are copied here. */ - struct buffer *input; - - /* ISO Packer state */ - unsigned char dbc; - struct packet_list *current_packet_list; - int current_packet; - struct fraction ready_samples, samples_per_cycle; - - /* We use these to generate control bits when we are packing - * iec958 data. - */ - int iec958_frame_count; - int iec958_rate_code; - - /* The cycle_count and cycle_offset fields are used for the - * synchronization timestamps (syt) in the cip header. They - * are incremented by at least a cycle every time we put a - * time stamp in a packet. As we don't time stamp all - * packages, cycle_count isn't updated in every cycle, and - * sometimes it's incremented by 2. Thus, we have - * cycle_count2, which is simply incremented by one with each - * packet, so we can compare it to the transmission time - * written back in the dma programs. - */ - atomic_t cycle_count, cycle_count2; - struct fraction cycle_offset, ticks_per_syt_offset; - int syt_interval; - int stale_count; - - /* Theses fields control the sample output to the DMA engine. - * The dma_packet_lists list holds packet lists currently - * queued for dma; the head of the list is currently being - * processed. The last program in a packet list generates an - * interrupt, which removes the head from dma_packet_lists and - * puts it back on the free list. - */ - struct list_head dma_packet_lists; - struct list_head free_packet_lists; - wait_queue_head_t packet_list_wait; - spinlock_t packet_list_lock; - struct ohci1394_iso_tasklet iso_tasklet; - struct pci_pool *descriptor_pool, *packet_pool; - - /* Streams at a host controller are chained through this field. */ - struct list_head link; - struct amdtp_host *host; -}; - -struct amdtp_host { - struct hpsb_host *host; - struct ti_ohci *ohci; - struct list_head stream_list; - spinlock_t stream_list_lock; -}; - -static struct hpsb_highlevel amdtp_highlevel; - - -/* FIXME: This doesn't belong here... */ - -#define OHCI1394_CONTEXT_CYCLE_MATCH 0x80000000 -#define OHCI1394_CONTEXT_RUN 0x00008000 -#define OHCI1394_CONTEXT_WAKE 0x00001000 -#define OHCI1394_CONTEXT_DEAD 0x00000800 -#define OHCI1394_CONTEXT_ACTIVE 0x00000400 - -static void ohci1394_start_it_ctx(struct ti_ohci *ohci, int ctx, - dma_addr_t first_cmd, int z, int cycle_match) -{ - reg_write(ohci, OHCI1394_IsoXmitIntMaskSet, 1 << ctx); - reg_write(ohci, OHCI1394_IsoXmitCommandPtr + ctx * 16, first_cmd | z); - reg_write(ohci, OHCI1394_IsoXmitContextControlClear + ctx * 16, ~0); - wmb(); - reg_write(ohci, OHCI1394_IsoXmitContextControlSet + ctx * 16, - OHCI1394_CONTEXT_CYCLE_MATCH | (cycle_match << 16) | - OHCI1394_CONTEXT_RUN); -} - -static void ohci1394_wake_it_ctx(struct ti_ohci *ohci, int ctx) -{ - reg_write(ohci, OHCI1394_IsoXmitContextControlSet + ctx * 16, - OHCI1394_CONTEXT_WAKE); -} - -static void ohci1394_stop_it_ctx(struct ti_ohci *ohci, int ctx, int synchronous) -{ - u32 control; - int wait; - - reg_write(ohci, OHCI1394_IsoXmitIntMaskClear, 1 << ctx); - reg_write(ohci, OHCI1394_IsoXmitContextControlClear + ctx * 16, - OHCI1394_CONTEXT_RUN); - wmb(); - - if (synchronous) { - for (wait = 0; wait < 5; wait++) { - control = reg_read(ohci, OHCI1394_IsoXmitContextControlSet + ctx * 16); - if ((control & OHCI1394_CONTEXT_ACTIVE) == 0) - break; - - schedule_timeout_interruptible(1); - } - } -} - -/* Note: we can test if free_packet_lists is empty without aquiring - * the packet_list_lock. The interrupt handler only adds to the free - * list, there is no race condition between testing the list non-empty - * and acquiring the lock. - */ - -static struct packet_list *stream_get_free_packet_list(struct stream *s) -{ - struct packet_list *pl; - unsigned long flags; - - if (list_empty(&s->free_packet_lists)) - return NULL; - - spin_lock_irqsave(&s->packet_list_lock, flags); - pl = list_entry(s->free_packet_lists.next, struct packet_list, link); - list_del(&pl->link); - spin_unlock_irqrestore(&s->packet_list_lock, flags); - - return pl; -} - -static void stream_start_dma(struct stream *s, struct packet_list *pl) -{ - u32 syt_cycle, cycle_count, start_cycle; - - cycle_count = reg_read(s->host->ohci, - OHCI1394_IsochronousCycleTimer) >> 12; - syt_cycle = (pl->last_cycle_count - PACKET_LIST_SIZE + 1) & 0x0f; - - /* We program the DMA controller to start transmission at - * least 17 cycles from now - this happens when the lower four - * bits of cycle_count is 0x0f and syt_cycle is 0, in this - * case the start cycle is cycle_count - 15 + 32. */ - start_cycle = (cycle_count & ~0x0f) + 32 + syt_cycle; - if ((start_cycle & 0x1fff) >= 8000) - start_cycle = start_cycle - 8000 + 0x2000; - - ohci1394_start_it_ctx(s->host->ohci, s->iso_tasklet.context, - pl->packets[0].db_bus, 3, - start_cycle & 0x7fff); -} - -static void stream_put_dma_packet_list(struct stream *s, - struct packet_list *pl) -{ - unsigned long flags; - struct packet_list *prev; - - /* Remember the cycle_count used for timestamping the last packet. */ - pl->last_cycle_count = atomic_read(&s->cycle_count2) - 1; - pl->packets[PACKET_LIST_SIZE - 1].db->payload_desc.branch = 0; - - spin_lock_irqsave(&s->packet_list_lock, flags); - list_add_tail(&pl->link, &s->dma_packet_lists); - spin_unlock_irqrestore(&s->packet_list_lock, flags); - - prev = list_entry(pl->link.prev, struct packet_list, link); - if (pl->link.prev != &s->dma_packet_lists) { - struct packet *last = &prev->packets[PACKET_LIST_SIZE - 1]; - last->db->payload_desc.branch = pl->packets[0].db_bus | 3; - last->db->header_desc.skip = pl->packets[0].db_bus | 3; - ohci1394_wake_it_ctx(s->host->ohci, s->iso_tasklet.context); - } - else - stream_start_dma(s, pl); -} - -static void stream_shift_packet_lists(unsigned long l) -{ - struct stream *s = (struct stream *) l; - struct packet_list *pl; - struct packet *last; - int diff; - - if (list_empty(&s->dma_packet_lists)) { - HPSB_ERR("empty dma_packet_lists in %s", __FUNCTION__); - return; - } - - /* Now that we know the list is non-empty, we can get the head - * of the list without locking, because the process context - * only adds to the tail. - */ - pl = list_entry(s->dma_packet_lists.next, struct packet_list, link); - last = &pl->packets[PACKET_LIST_SIZE - 1]; - - /* This is weird... if we stop dma processing in the middle of - * a packet list, the dma context immediately generates an - * interrupt if we enable it again later. This only happens - * when amdtp_release is interrupted while waiting for dma to - * complete, though. Anyway, we detect this by seeing that - * the status of the dma descriptor that we expected an - * interrupt from is still 0. - */ - if (last->db->payload_desc.status == 0) { - HPSB_INFO("weird interrupt..."); - return; - } - - /* If the last descriptor block does not specify a branch - * address, we have a sample underflow. - */ - if (last->db->payload_desc.branch == 0) - HPSB_INFO("FIXME: sample underflow..."); - - /* Here we check when (which cycle) the last packet was sent - * and compare it to what the iso packer was using at the - * time. If there is a mismatch, we adjust the cycle count in - * the iso packer. However, there are still up to - * MAX_PACKET_LISTS packet lists queued with bad time stamps, - * so we disable time stamp monitoring for the next - * MAX_PACKET_LISTS packet lists. - */ - diff = (last->db->payload_desc.status - pl->last_cycle_count) & 0xf; - if (diff > 0 && s->stale_count == 0) { - atomic_add(diff, &s->cycle_count); - atomic_add(diff, &s->cycle_count2); - s->stale_count = MAX_PACKET_LISTS; - } - - if (s->stale_count > 0) - s->stale_count--; - - /* Finally, we move the packet list that was just processed - * back to the free list, and notify any waiters. - */ - spin_lock(&s->packet_list_lock); - list_del(&pl->link); - list_add_tail(&pl->link, &s->free_packet_lists); - spin_unlock(&s->packet_list_lock); - - wake_up_interruptible(&s->packet_list_wait); -} - -static struct packet *stream_current_packet(struct stream *s) -{ - if (s->current_packet_list == NULL && - (s->current_packet_list = stream_get_free_packet_list(s)) == NULL) - return NULL; - - return &s->current_packet_list->packets[s->current_packet]; -} - -static void stream_queue_packet(struct stream *s) -{ - s->current_packet++; - if (s->current_packet == PACKET_LIST_SIZE) { - stream_put_dma_packet_list(s, s->current_packet_list); - s->current_packet_list = NULL; - s->current_packet = 0; - } -} - -/* Integer fractional math. When we transmit a 44k1Hz signal we must - * send 5 41/80 samples per isochronous cycle, as these occur 8000 - * times a second. Of course, we must send an integral number of - * samples in a packet, so we use the integer math to alternate - * between sending 5 and 6 samples per packet. - */ - -static void fraction_init(struct fraction *f, int numerator, int denominator) -{ - f->integer = numerator / denominator; - f->numerator = numerator % denominator; - f->denominator = denominator; -} - -static __inline__ void fraction_add(struct fraction *dst, - struct fraction *src1, - struct fraction *src2) -{ - /* assert: src1->denominator == src2->denominator */ - - int sum, denom; - - /* We use these two local variables to allow gcc to optimize - * the division and the modulo into only one division. */ - - sum = src1->numerator + src2->numerator; - denom = src1->denominator; - dst->integer = src1->integer + src2->integer + sum / denom; - dst->numerator = sum % denom; - dst->denominator = denom; -} - -static __inline__ void fraction_sub_int(struct fraction *dst, - struct fraction *src, int integer) -{ - dst->integer = src->integer - integer; - dst->numerator = src->numerator; - dst->denominator = src->denominator; -} - -static __inline__ int fraction_floor(struct fraction *frac) -{ - return frac->integer; -} - -static __inline__ int fraction_ceil(struct fraction *frac) -{ - return frac->integer + (frac->numerator > 0 ? 1 : 0); -} - -static void packet_initialize(struct packet *p, struct packet *next) -{ - /* Here we initialize the dma descriptor block for - * transferring one iso packet. We use two descriptors per - * packet: an OUTPUT_MORE_IMMMEDIATE descriptor for the - * IEEE1394 iso packet header and an OUTPUT_LAST descriptor - * for the payload. - */ - - p->db->header_desc.control = - DMA_CTL_OUTPUT_MORE | DMA_CTL_IMMEDIATE | 8; - - if (next) { - p->db->payload_desc.control = - DMA_CTL_OUTPUT_LAST | DMA_CTL_BRANCH; - p->db->payload_desc.branch = next->db_bus | 3; - p->db->header_desc.skip = next->db_bus | 3; - } - else { - p->db->payload_desc.control = - DMA_CTL_OUTPUT_LAST | DMA_CTL_BRANCH | - DMA_CTL_UPDATE | DMA_CTL_IRQ; - p->db->payload_desc.branch = 0; - p->db->header_desc.skip = 0; - } - p->db->payload_desc.data_address = p->payload_bus; - p->db->payload_desc.status = 0; -} - -static struct packet_list *packet_list_alloc(struct stream *s) -{ - int i; - struct packet_list *pl; - struct packet *next; - - pl = kmalloc(sizeof *pl, SLAB_KERNEL); - if (pl == NULL) - return NULL; - - for (i = 0; i < PACKET_LIST_SIZE; i++) { - struct packet *p = &pl->packets[i]; - p->db = pci_pool_alloc(s->descriptor_pool, SLAB_KERNEL, - &p->db_bus); - p->payload = pci_pool_alloc(s->packet_pool, SLAB_KERNEL, - &p->payload_bus); - } - - for (i = 0; i < PACKET_LIST_SIZE; i++) { - if (i < PACKET_LIST_SIZE - 1) - next = &pl->packets[i + 1]; - else - next = NULL; - packet_initialize(&pl->packets[i], next); - } - - return pl; -} - -static void packet_list_free(struct packet_list *pl, struct stream *s) -{ - int i; - - for (i = 0; i < PACKET_LIST_SIZE; i++) { - struct packet *p = &pl->packets[i]; - pci_pool_free(s->descriptor_pool, p->db, p->db_bus); - pci_pool_free(s->packet_pool, p->payload, p->payload_bus); - } - kfree(pl); -} - -static struct buffer *buffer_alloc(int size) -{ - struct buffer *b; - - b = kmalloc(sizeof *b + size, SLAB_KERNEL); - if (b == NULL) - return NULL; - b->head = 0; - b->tail = 0; - b->length = 0; - b->size = size; - - return b; -} - -static unsigned char *buffer_get_bytes(struct buffer *buffer, int size) -{ - unsigned char *p; - - if (buffer->head + size > buffer->size) - BUG(); - - p = &buffer->data[buffer->head]; - buffer->head += size; - if (buffer->head == buffer->size) - buffer->head = 0; - buffer->length -= size; - - return p; -} - -static unsigned char *buffer_put_bytes(struct buffer *buffer, - size_t max, size_t *actual) -{ - size_t length; - unsigned char *p; - - p = &buffer->data[buffer->tail]; - length = min(buffer->size - buffer->length, max); - if (buffer->tail + length < buffer->size) { - *actual = length; - buffer->tail += length; - } - else { - *actual = buffer->size - buffer->tail; - buffer->tail = 0; - } - - buffer->length += *actual; - return p; -} - -static u32 get_iec958_header_bits(struct stream *s, int sub_frame, u32 sample) -{ - int csi, parity, shift; - int block_start; - u32 bits; - - switch (s->iec958_frame_count) { - case 1: - csi = s->format == AMDTP_FORMAT_IEC958_AC3; - break; - case 2: - case 9: - csi = 1; - break; - case 24 ... 27: - csi = (s->iec958_rate_code >> (27 - s->iec958_frame_count)) & 0x01; - break; - default: - csi = 0; - break; - } - - block_start = (s->iec958_frame_count == 0 && sub_frame == 0); - - /* The parity bit is the xor of the sample bits and the - * channel status info bit. */ - for (shift = 16, parity = sample ^ csi; shift > 0; shift >>= 1) - parity ^= (parity >> shift); - - bits = (block_start << 5) | /* Block start bit */ - ((sub_frame == 0) << 4) | /* Subframe bit */ - ((parity & 1) << 3) | /* Parity bit */ - (csi << 2); /* Channel status info bit */ - - return bits; -} - -static u32 get_header_bits(struct stream *s, int sub_frame, u32 sample) -{ - switch (s->format) { - case AMDTP_FORMAT_IEC958_PCM: - case AMDTP_FORMAT_IEC958_AC3: - return get_iec958_header_bits(s, sub_frame, sample); - - case AMDTP_FORMAT_RAW: - return 0x40; - - default: - return 0; - } -} - -static void fill_payload_le16(struct stream *s, quadlet_t *data, int nevents) -{ - quadlet_t *event, sample, bits; - unsigned char *p; - int i, j; - - for (i = 0, event = data; i < nevents; i++) { - - for (j = 0; j < s->dimension; j++) { - p = buffer_get_bytes(s->input, 2); - sample = (p[1] << 16) | (p[0] << 8); - bits = get_header_bits(s, j, sample); - event[j] = cpu_to_be32((bits << 24) | sample); - } - - event += s->dimension; - if (++s->iec958_frame_count == 192) - s->iec958_frame_count = 0; - } -} - -static void fill_packet(struct stream *s, struct packet *packet, int nevents) -{ - int syt_index, syt, size; - u32 control; - - size = (nevents * s->dimension + 2) * sizeof(quadlet_t); - - /* Update DMA descriptors */ - packet->db->payload_desc.status = 0; - control = packet->db->payload_desc.control & 0xffff0000; - packet->db->payload_desc.control = control | size; - - /* Fill IEEE1394 headers */ - packet->db->header_desc.header[0] = - (IEEE1394_SPEED_100 << 16) | (0x01 << 14) | - (s->iso_channel << 8) | (TCODE_ISO_DATA << 4); - packet->db->header_desc.header[1] = size << 16; - - /* Calculate synchronization timestamp (syt). First we - * determine syt_index, that is, the index in the packet of - * the sample for which the timestamp is valid. */ - syt_index = (s->syt_interval - s->dbc) & (s->syt_interval - 1); - if (syt_index < nevents) { - syt = ((atomic_read(&s->cycle_count) << 12) | - s->cycle_offset.integer) & 0xffff; - fraction_add(&s->cycle_offset, - &s->cycle_offset, &s->ticks_per_syt_offset); - - /* This next addition should be modulo 8000 (0x1f40), - * but we only use the lower 4 bits of cycle_count, so - * we don't need the modulo. */ - atomic_add(s->cycle_offset.integer / 3072, &s->cycle_count); - s->cycle_offset.integer %= 3072; - } - else - syt = 0xffff; - - atomic_inc(&s->cycle_count2); - - /* Fill cip header */ - packet->payload->eoh0 = 0; - packet->payload->sid = s->host->host->node_id & 0x3f; - packet->payload->dbs = s->dimension; - packet->payload->fn = 0; - packet->payload->qpc = 0; - packet->payload->sph = 0; - packet->payload->reserved = 0; - packet->payload->dbc = s->dbc; - packet->payload->eoh1 = 2; - packet->payload->fmt = FMT_AMDTP; - packet->payload->fdf = s->fdf; - packet->payload->syt = cpu_to_be16(syt); - - switch (s->sample_format) { - case AMDTP_INPUT_LE16: - fill_payload_le16(s, packet->payload->data, nevents); - break; - } - - s->dbc += nevents; -} - -static void stream_flush(struct stream *s) -{ - struct packet *p; - int nevents; - struct fraction next; - - /* The AMDTP specifies two transmission modes: blocking and - * non-blocking. In blocking mode you always transfer - * syt_interval or zero samples, whereas in non-blocking mode - * you send as many samples as you have available at transfer - * time. - * - * The fraction samples_per_cycle specifies the number of - * samples that become available per cycle. We add this to - * the fraction ready_samples, which specifies the number of - * leftover samples from the previous transmission. The sum, - * stored in the fraction next, specifies the number of - * samples available for transmission, and from this we - * determine the number of samples to actually transmit. - */ - - while (1) { - fraction_add(&next, &s->ready_samples, &s->samples_per_cycle); - if (s->mode == AMDTP_MODE_BLOCKING) { - if (fraction_floor(&next) >= s->syt_interval) - nevents = s->syt_interval; - else - nevents = 0; - } - else - nevents = fraction_floor(&next); - - p = stream_current_packet(s); - if (s->input->length < nevents * s->dimension * 2 || p == NULL) - break; - - fill_packet(s, p, nevents); - stream_queue_packet(s); - - /* Now that we have successfully queued the packet for - * transmission, we update the fraction ready_samples. */ - fraction_sub_int(&s->ready_samples, &next, nevents); - } -} - -static int stream_alloc_packet_lists(struct stream *s) -{ - int max_nevents, max_packet_size, i; - - if (s->mode == AMDTP_MODE_BLOCKING) - max_nevents = s->syt_interval; - else - max_nevents = fraction_ceil(&s->samples_per_cycle); - - max_packet_size = max_nevents * s->dimension * 4 + 8; - s->packet_pool = pci_pool_create("packet pool", s->host->ohci->dev, - max_packet_size, 0, 0); - - if (s->packet_pool == NULL) - return -1; - - INIT_LIST_HEAD(&s->free_packet_lists); - INIT_LIST_HEAD(&s->dma_packet_lists); - for (i = 0; i < MAX_PACKET_LISTS; i++) { - struct packet_list *pl = packet_list_alloc(s); - if (pl == NULL) - break; - list_add_tail(&pl->link, &s->free_packet_lists); - } - - return i < MAX_PACKET_LISTS ? -1 : 0; -} - -static void stream_free_packet_lists(struct stream *s) -{ - struct packet_list *packet_l, *packet_l_next; - - if (s->current_packet_list != NULL) - packet_list_free(s->current_packet_list, s); - list_for_each_entry_safe(packet_l, packet_l_next, &s->dma_packet_lists, link) - packet_list_free(packet_l, s); - list_for_each_entry_safe(packet_l, packet_l_next, &s->free_packet_lists, link) - packet_list_free(packet_l, s); - if (s->packet_pool != NULL) - pci_pool_destroy(s->packet_pool); - - s->current_packet_list = NULL; - INIT_LIST_HEAD(&s->free_packet_lists); - INIT_LIST_HEAD(&s->dma_packet_lists); - s->packet_pool = NULL; -} - -static void plug_update(struct cmp_pcr *plug, void *data) -{ - struct stream *s = data; - - HPSB_INFO("plug update: p2p_count=%d, channel=%d", - plug->p2p_count, plug->channel); - s->iso_channel = plug->channel; - if (plug->p2p_count > 0) { - struct packet_list *pl; - - pl = list_entry(s->dma_packet_lists.next, struct packet_list, link); - stream_start_dma(s, pl); - } - else { - ohci1394_stop_it_ctx(s->host->ohci, s->iso_tasklet.context, 0); - } -} - -static int stream_configure(struct stream *s, int cmd, struct amdtp_ioctl *cfg) -{ - const int transfer_delay = 9000; - - if (cfg->format <= AMDTP_FORMAT_IEC958_AC3) - s->format = cfg->format; - else - return -EINVAL; - - switch (cfg->rate) { - case 32000: - s->syt_interval = 8; - s->fdf = FDF_SFC_32KHZ; - s->iec958_rate_code = 0x0c; - break; - case 44100: - s->syt_interval = 8; - s->fdf = FDF_SFC_44K1HZ; - s->iec958_rate_code = 0x00; - break; - case 48000: - s->syt_interval = 8; - s->fdf = FDF_SFC_48KHZ; - s->iec958_rate_code = 0x04; - break; - case 88200: - s->syt_interval = 16; - s->fdf = FDF_SFC_88K2HZ; - s->iec958_rate_code = 0x00; - break; - case 96000: - s->syt_interval = 16; - s->fdf = FDF_SFC_96KHZ; - s->iec958_rate_code = 0x00; - break; - case 176400: - s->syt_interval = 32; - s->fdf = FDF_SFC_176K4HZ; - s->iec958_rate_code = 0x00; - break; - case 192000: - s->syt_interval = 32; - s->fdf = FDF_SFC_192KHZ; - s->iec958_rate_code = 0x00; - break; - - default: - return -EINVAL; - } - - s->rate = cfg->rate; - fraction_init(&s->samples_per_cycle, s->rate, 8000); - fraction_init(&s->ready_samples, 0, 8000); - - /* The ticks_per_syt_offset is initialized to the number of - * ticks between syt_interval events. The number of ticks per - * second is 24.576e6, so the number of ticks between - * syt_interval events is 24.576e6 * syt_interval / rate. - */ - fraction_init(&s->ticks_per_syt_offset, - 24576000 * s->syt_interval, s->rate); - fraction_init(&s->cycle_offset, (transfer_delay % 3072) * s->rate, s->rate); - atomic_set(&s->cycle_count, transfer_delay / 3072); - atomic_set(&s->cycle_count2, 0); - - s->mode = cfg->mode; - s->sample_format = AMDTP_INPUT_LE16; - - /* When using the AM824 raw subformat we can stream signals of - * any dimension. The IEC958 subformat, however, only - * supports 2 channels. - */ - if (s->format == AMDTP_FORMAT_RAW || cfg->dimension == 2) - s->dimension = cfg->dimension; - else - return -EINVAL; - - if (s->opcr != NULL) { - cmp_unregister_opcr(s->host->host, s->opcr); - s->opcr = NULL; - } - - switch(cmd) { - case AMDTP_IOC_PLUG: - s->opcr = cmp_register_opcr(s->host->host, cfg->u.plug, - /*payload*/ 12, plug_update, s); - if (s->opcr == NULL) - return -EINVAL; - s->iso_channel = s->opcr->channel; - break; - - case AMDTP_IOC_CHANNEL: - if (cfg->u.channel >= 0 && cfg->u.channel < 64) - s->iso_channel = cfg->u.channel; - else - return -EINVAL; - break; - } - - /* The ioctl settings were all valid, so we realloc the packet - * lists to make sure the packet size is big enough. - */ - if (s->packet_pool != NULL) - stream_free_packet_lists(s); - - if (stream_alloc_packet_lists(s) < 0) { - stream_free_packet_lists(s); - return -ENOMEM; - } - - return 0; -} - -static struct stream *stream_alloc(struct amdtp_host *host) -{ - struct stream *s; - unsigned long flags; - - s = kmalloc(sizeof(struct stream), SLAB_KERNEL); - if (s == NULL) - return NULL; - - memset(s, 0, sizeof(struct stream)); - s->host = host; - - s->input = buffer_alloc(BUFFER_SIZE); - if (s->input == NULL) { - kfree(s); - return NULL; - } - - s->descriptor_pool = pci_pool_create("descriptor pool", host->ohci->dev, - sizeof(struct descriptor_block), - 16, 0); - - if (s->descriptor_pool == NULL) { - kfree(s->input); - kfree(s); - return NULL; - } - - INIT_LIST_HEAD(&s->free_packet_lists); - INIT_LIST_HEAD(&s->dma_packet_lists); - - init_waitqueue_head(&s->packet_list_wait); - spin_lock_init(&s->packet_list_lock); - - ohci1394_init_iso_tasklet(&s->iso_tasklet, OHCI_ISO_TRANSMIT, - stream_shift_packet_lists, - (unsigned long) s); - - if (ohci1394_register_iso_tasklet(host->ohci, &s->iso_tasklet) < 0) { - pci_pool_destroy(s->descriptor_pool); - kfree(s->input); - kfree(s); - return NULL; - } - - spin_lock_irqsave(&host->stream_list_lock, flags); - list_add_tail(&s->link, &host->stream_list); - spin_unlock_irqrestore(&host->stream_list_lock, flags); - - return s; -} - -static void stream_free(struct stream *s) -{ - unsigned long flags; - - /* Stop the DMA. We wait for the dma packet list to become - * empty and let the dma controller run out of programs. This - * seems to be more reliable than stopping it directly, since - * that sometimes generates an it transmit interrupt if we - * later re-enable the context. - */ - wait_event_interruptible(s->packet_list_wait, - list_empty(&s->dma_packet_lists)); - - ohci1394_stop_it_ctx(s->host->ohci, s->iso_tasklet.context, 1); - ohci1394_unregister_iso_tasklet(s->host->ohci, &s->iso_tasklet); - - if (s->opcr != NULL) - cmp_unregister_opcr(s->host->host, s->opcr); - - spin_lock_irqsave(&s->host->stream_list_lock, flags); - list_del(&s->link); - spin_unlock_irqrestore(&s->host->stream_list_lock, flags); - - kfree(s->input); - - stream_free_packet_lists(s); - pci_pool_destroy(s->descriptor_pool); - - kfree(s); -} - -/* File operations */ - -static ssize_t amdtp_write(struct file *file, const char __user *buffer, size_t count, - loff_t *offset_is_ignored) -{ - struct stream *s = file->private_data; - unsigned char *p; - int i; - size_t length; - - if (s->packet_pool == NULL) - return -EBADFD; - - /* Fill the circular buffer from the input buffer and call the - * iso packer when the buffer is full. The iso packer may - * leave bytes in the buffer for two reasons: either the - * remaining bytes wasn't enough to build a new packet, or - * there were no free packet lists. In the first case we - * re-fill the buffer and call the iso packer again or return - * if we used all the data from userspace. In the second - * case, the wait_event_interruptible will block until the irq - * handler frees a packet list. - */ - - for (i = 0; i < count; i += length) { - p = buffer_put_bytes(s->input, count - i, &length); - if (copy_from_user(p, buffer + i, length)) - return -EFAULT; - if (s->input->length < s->input->size) - continue; - - stream_flush(s); - - if (s->current_packet_list != NULL) - continue; - - if (file->f_flags & O_NONBLOCK) - return i + length > 0 ? i + length : -EAGAIN; - - if (wait_event_interruptible(s->packet_list_wait, - !list_empty(&s->free_packet_lists))) - return -EINTR; - } - - return count; -} - -static long amdtp_ioctl(struct file *file, unsigned int cmd, unsigned long arg) -{ - struct stream *s = file->private_data; - struct amdtp_ioctl cfg; - int err; - lock_kernel(); - switch(cmd) - { - case AMDTP_IOC_PLUG: - case AMDTP_IOC_CHANNEL: - if (copy_from_user(&cfg, (struct amdtp_ioctl __user *) arg, sizeof cfg)) - err = -EFAULT; - else - err = stream_configure(s, cmd, &cfg); - break; - - default: - err = -EINVAL; - break; - } - unlock_kernel(); - return err; -} - -static unsigned int amdtp_poll(struct file *file, poll_table *pt) -{ - struct stream *s = file->private_data; - - poll_wait(file, &s->packet_list_wait, pt); - - if (!list_empty(&s->free_packet_lists)) - return POLLOUT | POLLWRNORM; - else - return 0; -} - -static int amdtp_open(struct inode *inode, struct file *file) -{ - struct amdtp_host *host; - int i = ieee1394_file_to_instance(file); - - host = hpsb_get_hostinfo_bykey(&amdtp_highlevel, i); - if (host == NULL) - return -ENODEV; - - file->private_data = stream_alloc(host); - if (file->private_data == NULL) - return -ENOMEM; - - return 0; -} - -static int amdtp_release(struct inode *inode, struct file *file) -{ - struct stream *s = file->private_data; - - stream_free(s); - - return 0; -} - -static struct cdev amdtp_cdev; -static struct file_operations amdtp_fops = -{ - .owner = THIS_MODULE, - .write = amdtp_write, - .poll = amdtp_poll, - .unlocked_ioctl = amdtp_ioctl, - .compat_ioctl = amdtp_ioctl, /* All amdtp ioctls are compatible */ - .open = amdtp_open, - .release = amdtp_release -}; - -/* IEEE1394 Subsystem functions */ - -static void amdtp_add_host(struct hpsb_host *host) -{ - struct amdtp_host *ah; - int minor; - - if (strcmp(host->driver->name, OHCI1394_DRIVER_NAME) != 0) - return; - - ah = hpsb_create_hostinfo(&amdtp_highlevel, host, sizeof(*ah)); - if (!ah) { - HPSB_ERR("amdtp: Unable able to alloc hostinfo"); - return; - } - - ah->host = host; - ah->ohci = host->hostdata; - - hpsb_set_hostinfo_key(&amdtp_highlevel, host, ah->host->id); - - minor = IEEE1394_MINOR_BLOCK_AMDTP * 16 + ah->host->id; - - INIT_LIST_HEAD(&ah->stream_list); - spin_lock_init(&ah->stream_list_lock); - - devfs_mk_cdev(MKDEV(IEEE1394_MAJOR, minor), - S_IFCHR|S_IRUSR|S_IWUSR, "amdtp/%d", ah->host->id); -} - -static void amdtp_remove_host(struct hpsb_host *host) -{ - struct amdtp_host *ah = hpsb_get_hostinfo(&amdtp_highlevel, host); - - if (ah) - devfs_remove("amdtp/%d", ah->host->id); - - return; -} - -static struct hpsb_highlevel amdtp_highlevel = { - .name = "amdtp", - .add_host = amdtp_add_host, - .remove_host = amdtp_remove_host, -}; - -/* Module interface */ - -MODULE_AUTHOR("Kristian Hogsberg <hogsberg@users.sf.net>"); -MODULE_DESCRIPTION("Driver for Audio & Music Data Transmission Protocol " - "on OHCI boards."); -MODULE_SUPPORTED_DEVICE("amdtp"); -MODULE_LICENSE("GPL"); - -static int __init amdtp_init_module (void) -{ - cdev_init(&amdtp_cdev, &amdtp_fops); - amdtp_cdev.owner = THIS_MODULE; - kobject_set_name(&amdtp_cdev.kobj, "amdtp"); - if (cdev_add(&amdtp_cdev, IEEE1394_AMDTP_DEV, 16)) { - HPSB_ERR("amdtp: unable to add char device"); - return -EIO; - } - - devfs_mk_dir("amdtp"); - - hpsb_register_highlevel(&amdtp_highlevel); - - HPSB_INFO("Loaded AMDTP driver"); - - return 0; -} - -static void __exit amdtp_exit_module (void) -{ - hpsb_unregister_highlevel(&amdtp_highlevel); - devfs_remove("amdtp"); - cdev_del(&amdtp_cdev); - - HPSB_INFO("Unloaded AMDTP driver"); -} - -module_init(amdtp_init_module); -module_exit(amdtp_exit_module); diff --git a/drivers/ieee1394/amdtp.h b/drivers/ieee1394/amdtp.h deleted file mode 100644 index 531f28e..0000000 --- a/drivers/ieee1394/amdtp.h +++ /dev/null @@ -1,84 +0,0 @@ -/* -*- c-basic-offset: 8 -*- */ - -#ifndef __AMDTP_H -#define __AMDTP_H - -#include <asm/types.h> -#include "ieee1394-ioctl.h" - -/* The userspace interface for the Audio & Music Data Transmission - * Protocol driver is really simple. First, open /dev/amdtp, use the - * ioctl to configure format, rate, dimension and either plug or - * channel, then start writing samples. - * - * The formats supported by the driver are listed below. - * AMDTP_FORMAT_RAW corresponds to the AM824 raw format, which can - * carry any number of channels, so use this if you're streaming - * multichannel audio. The AMDTP_FORMAT_IEC958_PCM corresponds to the - * AM824 IEC958 encapsulation without the IEC958 data bit set, using - * AMDTP_FORMAT_IEC958_AC3 will transmit the samples with the data bit - * set, suitable for transmitting compressed AC-3 audio. - * - * The rate field specifies the transmission rate; supported values - * are 32000, 44100, 48000, 88200, 96000, 176400 and 192000. - * - * The dimension field specifies the dimension of the signal, that is, - * the number of audio channels. Only AMDTP_FORMAT_RAW supports - * settings greater than 2. - * - * The mode field specifies which transmission mode to use. The AMDTP - * specifies two different transmission modes: blocking and - * non-blocking. The blocking transmission mode always send a fixed - * number of samples, typically 8, 16 or 32. To exactly match the - * transmission rate, the driver alternates between sending empty and - * non-empty packets. In non-blocking mode, the driver transmits as - * small packets as possible. For example, for a transmission rate of - * 44100Hz, the driver should send 5 41/80 samples in every cycle, but - * this is not possible so instead the driver alternates between - * sending 5 and 6 samples. - * - * The last thing to specify is either the isochronous channel to use - * or the output plug to connect to. If you know what channel the - * destination device will listen on, you can specify the channel - * directly and use the AMDTP_IOC_CHANNEL ioctl. However, if the - * destination device chooses the channel and uses the IEC61883-1 plug - * mechanism, you can specify an output plug to connect to. The - * driver will pick up the channel number from the plug once the - * destination device locks the output plug control register. In this - * case set the plug field and use the AMDTP_IOC_PLUG ioctl. - * - * Having configured the interface, the driver now accepts writes of - * regular 16 bit signed little endian samples, with the channels - * interleaved. For example, 4 channels would look like: - * - * | sample 0 | sample 1 ... - * | ch. 0 | ch. 1 | ch. 2 | ch. 3 | ch. 0 | ... - * | lsb | msb | lsb | msb | lsb | msb | lsb | msb | lsb | msb | ... - * - */ - -enum { - AMDTP_FORMAT_RAW, - AMDTP_FORMAT_IEC958_PCM, - AMDTP_FORMAT_IEC958_AC3 -}; - -enum { - AMDTP_MODE_BLOCKING, - AMDTP_MODE_NON_BLOCKING, -}; - -enum { - AMDTP_INPUT_LE16, - AMDTP_INPUT_BE16, -}; - -struct amdtp_ioctl { - __u32 format; - __u32 rate; - __u32 dimension; - __u32 mode; - union { __u32 channel; __u32 plug; } u; -}; - -#endif /* __AMDTP_H */ diff --git a/drivers/ieee1394/cmp.c b/drivers/ieee1394/cmp.c deleted file mode 100644 index 69aed26..0000000 --- a/drivers/ieee1394/cmp.c +++ /dev/null @@ -1,311 +0,0 @@ -/* -*- c-basic-offset: 8 -*- - * - * cmp.c - Connection Management Procedures - * Copyright (C) 2001 Kristian Høgsberg - * - * This program is free software; you can redistribute it and/or modify - * it under the terms of the GNU General Public License as published by - * the Free Software Foundation; either version 2 of the License, or - * (at your option) any later version. - * - * This program is distributed in the hope that 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. - */ - -/* TODO - * ---- - * - * - Implement IEC61883-1 output plugs and connection management. - * This should probably be part of the general subsystem, as it could - * be shared with dv1394. - * - * - Add IEC61883 unit directory when loading this module. This - * requires a run-time changeable config rom. - */ - -#include <linux/module.h> -#include <linux/list.h> -#include <linux/sched.h> -#include <linux/types.h> -#include <linux/wait.h> -#include <linux/interrupt.h> - -#include "hosts.h" -#include "highlevel.h" -#include "ieee1394.h" -#include "ieee1394_core.h" -#include "cmp.h" - -struct plug { - union { - struct cmp_pcr pcr; - quadlet_t quadlet; - } u; - void (*update)(struct cmp_pcr *plug, void *data); - void *data; -}; - -struct cmp_host { - struct hpsb_host *host; - - union { - struct cmp_mpr ompr; - quadlet_t ompr_quadlet; - } u; - struct plug opcr[2]; - - union { - struct cmp_mpr impr; - quadlet_t impr_quadlet; - } v; - struct plug ipcr[2]; -}; - -enum { - CMP_P2P_CONNECTION, - CMP_BC_CONNECTION -}; - -#define CSR_PCR_MAP 0x900 -#define CSR_PCR_MAP_END 0x9fc - -static struct hpsb_highlevel cmp_highlevel; - -static void cmp_add_host(struct hpsb_host *host); -static void cmp_host_reset(struct hpsb_host *host); -static int pcr_read(struct hpsb_host *host, int nodeid, quadlet_t *buf, - u64 addr, size_t length, u16 flags); -static int pcr_lock(struct hpsb_host *host, int nodeid, quadlet_t *store, - u64 addr, quadlet_t data, quadlet_t arg, int extcode, u16 flags); - -static struct hpsb_highlevel cmp_highlevel = { - .name = "cmp", - .add_host = cmp_add_host, - .host_reset = cmp_host_reset, -}; - -static struct hpsb_address_ops pcr_ops = { - .read = pcr_read, - .lock = pcr_lock, -}; - - -struct cmp_pcr * -cmp_register_opcr(struct hpsb_host *host, int opcr_number, int payload, - void (*update)(struct cmp_pcr *pcr, void *data), - void *data) -{ - struct cmp_host *ch; - struct plug *plug; - - ch = hpsb_get_hostinfo(&cmp_highlevel, host); - - if (opcr_number >= ch->u.ompr.nplugs || - ch->opcr[opcr_number].update != NULL) - return NULL; - - plug = &ch->opcr[opcr_number]; - plug->u.pcr.online = 1; - plug->u.pcr.bcast_count = 0; - plug->u.pcr.p2p_count = 0; - plug->u.pcr.overhead = 0; - plug->u.pcr.payload = payload; - plug->update = update; - plug->data = data; - - return &plug->u.pcr; -} - -void cmp_unregister_opcr(struct hpsb_host *host, struct cmp_pcr *opcr) -{ - struct cmp_host *ch; - struct plug *plug; - - ch = hpsb_get_hostinfo(&cmp_highlevel, host); - plug = (struct plug *)opcr; - if (plug - ch->opcr >= ch->u.ompr.nplugs) BUG(); - - plug->u.pcr.online = 0; - plug->update = NULL; -} - -static void reset_plugs(struct cmp_host *ch) -{ - int i; - - ch->u.ompr.non_persistent_ext = 0xff; - for (i = 0; i < ch->u.ompr.nplugs; i++) { - ch->opcr[i].u.pcr.bcast_count = 0; - ch->opcr[i].u.pcr.p2p_count = 0; - ch->opcr[i].u.pcr.overhead = 0; - } -} - -static void cmp_add_host(struct hpsb_host *host) -{ - struct cmp_host *ch = hpsb_create_hostinfo(&cmp_highlevel, host, sizeof (*ch)); - - if (ch == NULL) { - HPSB_ERR("Failed to allocate cmp_host"); - return; - } - - hpsb_register_addrspace(&cmp_highlevel, host, &pcr_ops, - CSR_REGISTER_BASE + CSR_PCR_MAP, - CSR_REGISTER_BASE + CSR_PCR_MAP_END); - - ch->host = host; - ch->u.ompr.rate = IEEE1394_SPEED_100; - ch->u.ompr.bcast_channel_base = 63; - ch->u.ompr.nplugs = 2; - - reset_plugs(ch); -} - -static void cmp_host_reset(struct hpsb_host *host) -{ - struct cmp_host *ch; - - ch = hpsb_get_hostinfo(&cmp_highlevel, host); - if (ch == NULL) { - HPSB_ERR("cmp: Tried to reset unknown host"); - return; - } - - reset_plugs(ch); -} - -static int pcr_read(struct hpsb_host *host, int nodeid, quadlet_t *buf, - u64 addr, size_t length, u16 flags) -{ - int csraddr = addr - CSR_REGISTER_BASE; - int plug; - struct cmp_host *ch; - - if (length != 4) - return RCODE_TYPE_ERROR; - - ch = hpsb_get_hostinfo(&cmp_highlevel, host); - if (csraddr == 0x900) { - *buf = cpu_to_be32(ch->u.ompr_quadlet); - return RCODE_COMPLETE; - } - else if (csraddr < 0x904 + ch->u.ompr.nplugs * 4) { - plug = (csraddr - 0x904) / 4; - *buf = cpu_to_be32(ch->opcr[plug].u.quadlet); - return RCODE_COMPLETE; - } - else if (csraddr < 0x980) { - return RCODE_ADDRESS_ERROR; - } - else if (csraddr == 0x980) { - *buf = cpu_to_be32(ch->v.impr_quadlet); - return RCODE_COMPLETE; - } - else if (csraddr < 0x984 + ch->v.impr.nplugs * 4) { - plug = (csraddr - 0x984) / 4; - *buf = cpu_to_be32(ch->ipcr[plug].u.quadlet); - return RCODE_COMPLETE; - } - else - return RCODE_ADDRESS_ERROR; -} - -static int pcr_lock(struct hpsb_host *host, int nodeid, quadlet_t *store, - u64 addr, quadlet_t data, quadlet_t arg, int extcode, u16 flags) -{ - int csraddr = addr - CSR_REGISTER_BASE; - int plug; - struct cmp_host *ch; - - ch = hpsb_get_hostinfo(&cmp_highlevel, host); - - if (extcode != EXTCODE_COMPARE_SWAP) - return RCODE_TYPE_ERROR; - - if (csraddr == 0x900) { - /* FIXME: Ignore writes to bits 30-31 and 0-7 */ - *store = cpu_to_be32(ch->u.ompr_quadlet); - if (arg == cpu_to_be32(ch->u.ompr_quadlet)) - ch->u.ompr_quadlet = be32_to_cpu(data); - - return RCODE_COMPLETE; - } - if (csraddr < 0x904 + ch->u.ompr.nplugs * 4) { - plug = (csraddr - 0x904) / 4; - *store = cpu_to_be32(ch->opcr[plug].u.quadlet); - - if (arg == *store) - ch->opcr[plug].u.quadlet = be32_to_cpu(data); - - if (be32_to_cpu(*store) != ch->opcr[plug].u.quadlet && - ch->opcr[plug].update != NULL) - ch->opcr[plug].update(&ch->opcr[plug].u.pcr, - ch->opcr[plug].data); - - return RCODE_COMPLETE; - } - else if (csraddr < 0x980) { - return RCODE_ADDRESS_ERROR; - } - else if (csraddr == 0x980) { - /* FIXME: Ignore writes to bits 24-31 and 0-7 */ - *store = cpu_to_be32(ch->u.ompr_quadlet); - if (arg == cpu_to_be32(ch->u.ompr_quadlet)) - ch->u.ompr_quadlet = be32_to_cpu(data); - - return RCODE_COMPLETE; - } - else if (csraddr < 0x984 + ch->v.impr.nplugs * 4) { - plug = (csraddr - 0x984) / 4; - *store = cpu_to_be32(ch->ipcr[plug].u.quadlet); - - if (arg == *store) - ch->ipcr[plug].u.quadlet = be32_to_cpu(data); - - if (be32_to_cpu(*store) != ch->ipcr[plug].u.quadlet && - ch->ipcr[plug].update != NULL) - ch->ipcr[plug].update(&ch->ipcr[plug].u.pcr, - ch->ipcr[plug].data); - - return RCODE_COMPLETE; - } - else - return RCODE_ADDRESS_ERROR; -} - - -/* Module interface */ - -MODULE_AUTHOR("Kristian Hogsberg <hogsberg@users.sf.net>"); -MODULE_DESCRIPTION("Connection Management Procedures (CMP)"); -MODULE_SUPPORTED_DEVICE("cmp"); -MODULE_LICENSE("GPL"); - -EXPORT_SYMBOL(cmp_register_opcr); -EXPORT_SYMBOL(cmp_unregister_opcr); - -static int __init cmp_init_module (void) -{ - hpsb_register_highlevel (&cmp_highlevel); - - HPSB_INFO("Loaded CMP driver"); - - return 0; -} - -static void __exit cmp_exit_module (void) -{ - hpsb_unregister_highlevel(&cmp_highlevel); - - HPSB_INFO("Unloaded CMP driver"); -} - -module_init(cmp_init_module); -module_exit(cmp_exit_module); diff --git a/drivers/ieee1394/cmp.h b/drivers/ieee1394/cmp.h deleted file mode 100644 index f9288bf..0000000 --- a/drivers/ieee1394/cmp.h +++ /dev/null @@ -1,31 +0,0 @@ -#ifndef __CMP_H -#define __CMP_H - -struct cmp_mpr { - u32 nplugs:5; - u32 reserved:3; - u32 persistent_ext:8; - u32 non_persistent_ext:8; - u32 bcast_channel_base:6; - u32 rate:2; -} __attribute__((packed)); - -struct cmp_pcr { - u32 payload:10; - u32 overhead:4; - u32 speed:2; - u32 channel:6; - u32 reserved:2; - u32 p2p_count:6; - u32 bcast_count:1; - u32 online:1; -} __attribute__((packed)); - -struct cmp_pcr *cmp_register_opcr(struct hpsb_host *host, int plug, - int payload, - void (*update)(struct cmp_pcr *plug, - void *data), - void *data); -void cmp_unregister_opcr(struct hpsb_host *host, struct cmp_pcr *plug); - -#endif /* __CMP_H */ |