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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [drivers/] [ieee1394/] [csr.c] - Rev 1774
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/* * IEEE 1394 for Linux * * CSR implementation, iso/bus manager implementation. * * Copyright (C) 1999 Andreas E. Bombe * 2002 Manfred Weihs <weihs@ict.tuwien.ac.at> * * This code is licensed under the GPL. See the file COPYING in the root * directory of the kernel sources for details. * * * Contributions: * * Manfred Weihs <weihs@ict.tuwien.ac.at> * configuration ROM manipulation * */ #include <linux/string.h> #include <linux/module.h> /* needed for MODULE_PARM */ #include <linux/param.h> #include <linux/spinlock.h> #include "ieee1394_types.h" #include "hosts.h" #include "ieee1394.h" #include "highlevel.h" /* Module Parameters */ /* this module parameter can be used to disable mapping of the FCP registers */ MODULE_PARM(fcp,"i"); MODULE_PARM_DESC(fcp, "FCP-registers"); static int fcp = 1; static u16 csr_crc16(unsigned *data, int length) { int check=0, i; int shift, sum, next=0; for (i = length; i; i--) { for (next = check, shift = 28; shift >= 0; shift -= 4 ) { sum = ((next >> 12) ^ (be32_to_cpu(*data) >> shift)) & 0xf; next = (next << 4) ^ (sum << 12) ^ (sum << 5) ^ (sum); } check = next & 0xffff; data++; } return check; } static void host_reset(struct hpsb_host *host) { host->csr.state &= 0x300; host->csr.bus_manager_id = 0x3f; host->csr.bandwidth_available = 4915; host->csr.channels_available_hi = 0xfffffffe; /* pre-alloc ch 31 per 1394a-2000 */ host->csr.channels_available_lo = ~0; host->csr.broadcast_channel = 0x80000000 | 31; if (host->is_irm) { if (host->driver->hw_csr_reg) { host->driver->hw_csr_reg(host, 2, 0xfffffffe, ~0); } } host->csr.node_ids = host->node_id << 16; if (!host->is_root) { /* clear cmstr bit */ host->csr.state &= ~0x100; } host->csr.topology_map[1] = cpu_to_be32(be32_to_cpu(host->csr.topology_map[1]) + 1); host->csr.topology_map[2] = cpu_to_be32(host->node_count << 16 | host->selfid_count); host->csr.topology_map[0] = cpu_to_be32((host->selfid_count + 2) << 16 | csr_crc16(host->csr.topology_map + 1, host->selfid_count + 2)); host->csr.speed_map[1] = cpu_to_be32(be32_to_cpu(host->csr.speed_map[1]) + 1); host->csr.speed_map[0] = cpu_to_be32(0x3f1 << 16 | csr_crc16(host->csr.speed_map+1, 0x3f1)); } /* * HI == seconds (bits 0:2) * LO == fraction units of 1/8000 of a second, as per 1394 (bits 19:31) * * Convert to units and then to HZ, for comparison to jiffies. * * By default this will end up being 800 units, or 100ms (125usec per * unit). * * NOTE: The spec says 1/8000, but also says we can compute based on 1/8192 * like CSR specifies. Should make our math less complex. */ static inline void calculate_expire(struct csr_control *csr) { unsigned long units; /* Take the seconds, and convert to units */ units = (unsigned long)(csr->split_timeout_hi & 0x07) << 13; /* Add in the fractional units */ units += (unsigned long)(csr->split_timeout_lo >> 19); /* Convert to jiffies */ csr->expire = (unsigned long)(units * HZ) >> 13UL; /* Just to keep from rounding low */ csr->expire++; HPSB_VERBOSE("CSR: setting expire to %lu, HZ=%d", csr->expire, HZ); } static void add_host(struct hpsb_host *host) { host->csr.lock = SPIN_LOCK_UNLOCKED; host->csr.rom_size = host->driver->get_rom(host, &host->csr.rom); host->csr.rom_version = 0; host->csr.state = 0; host->csr.node_ids = 0; host->csr.split_timeout_hi = 0; host->csr.split_timeout_lo = 800 << 19; calculate_expire(&host->csr); host->csr.cycle_time = 0; host->csr.bus_time = 0; host->csr.bus_manager_id = 0x3f; host->csr.bandwidth_available = 4915; host->csr.channels_available_hi = 0xfffffffe; /* pre-alloc ch 31 per 1394a-2000 */ host->csr.channels_available_lo = ~0; host->csr.broadcast_channel = 0x80000000 | 31; if (host->is_irm) { if (host->driver->hw_csr_reg) { host->driver->hw_csr_reg(host, 2, 0xfffffffe, ~0); } } } int hpsb_update_config_rom(struct hpsb_host *host, const quadlet_t *new_rom, size_t size, unsigned char rom_version) { unsigned long flags; int ret; spin_lock_irqsave(&host->csr.lock, flags); if (rom_version != host->csr.rom_version) ret = -1; else if (size > (CSR_CONFIG_ROM_SIZE << 2)) ret = -2; else { memcpy(host->csr.rom,new_rom,size); host->csr.rom_size=size; host->csr.rom_version++; ret=0; } spin_unlock_irqrestore(&host->csr.lock, flags); return ret; } int hpsb_get_config_rom(struct hpsb_host *host, quadlet_t *buffer, size_t buffersize, size_t *rom_size, unsigned char *rom_version) { unsigned long flags; int ret; spin_lock_irqsave(&host->csr.lock, flags); *rom_version=host->csr.rom_version; *rom_size=host->csr.rom_size; if (buffersize < host->csr.rom_size) ret = -1; else { memcpy(buffer,host->csr.rom,host->csr.rom_size); ret=0; } spin_unlock_irqrestore(&host->csr.lock, flags); return ret; } /* Read topology / speed maps and configuration ROM */ static int read_maps(struct hpsb_host *host, int nodeid, quadlet_t *buffer, u64 addr, size_t length, u16 fl) { unsigned long flags; int csraddr = addr - CSR_REGISTER_BASE; const char *src; spin_lock_irqsave(&host->csr.lock, flags); if (csraddr < CSR_TOPOLOGY_MAP) { if (csraddr + length > CSR_CONFIG_ROM + host->csr.rom_size) { spin_unlock_irqrestore(&host->csr.lock, flags); return RCODE_ADDRESS_ERROR; } src = ((char *)host->csr.rom) + csraddr - CSR_CONFIG_ROM; } else if (csraddr < CSR_SPEED_MAP) { src = ((char *)host->csr.topology_map) + csraddr - CSR_TOPOLOGY_MAP; } else { src = ((char *)host->csr.speed_map) + csraddr - CSR_SPEED_MAP; } memcpy(buffer, src, length); spin_unlock_irqrestore(&host->csr.lock, flags); return RCODE_COMPLETE; } #define out if (--length == 0) break static int read_regs(struct hpsb_host *host, int nodeid, quadlet_t *buf, u64 addr, size_t length, u16 flags) { int csraddr = addr - CSR_REGISTER_BASE; int oldcycle; quadlet_t ret; if ((csraddr | length) & 0x3) return RCODE_TYPE_ERROR; length /= 4; switch (csraddr) { case CSR_STATE_CLEAR: *(buf++) = cpu_to_be32(host->csr.state); out; case CSR_STATE_SET: *(buf++) = cpu_to_be32(host->csr.state); out; case CSR_NODE_IDS: *(buf++) = cpu_to_be32(host->csr.node_ids); out; case CSR_RESET_START: return RCODE_TYPE_ERROR; /* address gap - handled by default below */ case CSR_SPLIT_TIMEOUT_HI: *(buf++) = cpu_to_be32(host->csr.split_timeout_hi); out; case CSR_SPLIT_TIMEOUT_LO: *(buf++) = cpu_to_be32(host->csr.split_timeout_lo); out; /* address gap */ return RCODE_ADDRESS_ERROR; case CSR_CYCLE_TIME: oldcycle = host->csr.cycle_time; host->csr.cycle_time = host->driver->devctl(host, GET_CYCLE_COUNTER, 0); if (oldcycle > host->csr.cycle_time) { /* cycle time wrapped around */ host->csr.bus_time += 1 << 7; } *(buf++) = cpu_to_be32(host->csr.cycle_time); out; case CSR_BUS_TIME: oldcycle = host->csr.cycle_time; host->csr.cycle_time = host->driver->devctl(host, GET_CYCLE_COUNTER, 0); if (oldcycle > host->csr.cycle_time) { /* cycle time wrapped around */ host->csr.bus_time += (1 << 7); } *(buf++) = cpu_to_be32(host->csr.bus_time | (host->csr.cycle_time >> 25)); out; /* address gap */ return RCODE_ADDRESS_ERROR; case CSR_BUSY_TIMEOUT: /* not yet implemented */ return RCODE_ADDRESS_ERROR; case CSR_BUS_MANAGER_ID: if (host->driver->hw_csr_reg) ret = host->driver->hw_csr_reg(host, 0, 0, 0); else ret = host->csr.bus_manager_id; *(buf++) = cpu_to_be32(ret); out; case CSR_BANDWIDTH_AVAILABLE: if (host->driver->hw_csr_reg) ret = host->driver->hw_csr_reg(host, 1, 0, 0); else ret = host->csr.bandwidth_available; *(buf++) = cpu_to_be32(ret); out; case CSR_CHANNELS_AVAILABLE_HI: if (host->driver->hw_csr_reg) ret = host->driver->hw_csr_reg(host, 2, 0, 0); else ret = host->csr.channels_available_hi; *(buf++) = cpu_to_be32(ret); out; case CSR_CHANNELS_AVAILABLE_LO: if (host->driver->hw_csr_reg) ret = host->driver->hw_csr_reg(host, 3, 0, 0); else ret = host->csr.channels_available_lo; *(buf++) = cpu_to_be32(ret); out; case CSR_BROADCAST_CHANNEL: *(buf++) = cpu_to_be32(host->csr.broadcast_channel); out; /* address gap to end - fall through to default */ default: return RCODE_ADDRESS_ERROR; } return RCODE_COMPLETE; } static int write_regs(struct hpsb_host *host, int nodeid, int destid, quadlet_t *data, u64 addr, size_t length, u16 flags) { int csraddr = addr - CSR_REGISTER_BASE; if ((csraddr | length) & 0x3) return RCODE_TYPE_ERROR; length /= 4; switch (csraddr) { case CSR_STATE_CLEAR: /* FIXME FIXME FIXME */ printk("doh, someone wants to mess with state clear\n"); out; case CSR_STATE_SET: printk("doh, someone wants to mess with state set\n"); out; case CSR_NODE_IDS: host->csr.node_ids &= NODE_MASK << 16; host->csr.node_ids |= be32_to_cpu(*(data++)) & (BUS_MASK << 16); host->node_id = host->csr.node_ids >> 16; host->driver->devctl(host, SET_BUS_ID, host->node_id >> 6); out; case CSR_RESET_START: /* FIXME - perform command reset */ out; /* address gap */ return RCODE_ADDRESS_ERROR; case CSR_SPLIT_TIMEOUT_HI: host->csr.split_timeout_hi = be32_to_cpu(*(data++)) & 0x00000007; calculate_expire(&host->csr); out; case CSR_SPLIT_TIMEOUT_LO: host->csr.split_timeout_lo = be32_to_cpu(*(data++)) & 0xfff80000; calculate_expire(&host->csr); out; /* address gap */ return RCODE_ADDRESS_ERROR; case CSR_CYCLE_TIME: /* should only be set by cycle start packet, automatically */ host->csr.cycle_time = be32_to_cpu(*data); host->driver->devctl(host, SET_CYCLE_COUNTER, be32_to_cpu(*(data++))); out; case CSR_BUS_TIME: host->csr.bus_time = be32_to_cpu(*(data++)) & 0xffffff80; out; /* address gap */ return RCODE_ADDRESS_ERROR; case CSR_BUSY_TIMEOUT: /* not yet implemented */ return RCODE_ADDRESS_ERROR; case CSR_BUS_MANAGER_ID: case CSR_BANDWIDTH_AVAILABLE: case CSR_CHANNELS_AVAILABLE_HI: case CSR_CHANNELS_AVAILABLE_LO: /* these are not writable, only lockable */ return RCODE_TYPE_ERROR; case CSR_BROADCAST_CHANNEL: /* only the valid bit can be written */ host->csr.broadcast_channel = (host->csr.broadcast_channel & ~0x40000000) | (be32_to_cpu(*data) & 0x40000000); out; /* address gap to end - fall through */ default: return RCODE_ADDRESS_ERROR; } return RCODE_COMPLETE; } #undef out static int lock_regs(struct hpsb_host *host, int nodeid, quadlet_t *store, u64 addr, quadlet_t data, quadlet_t arg, int extcode, u16 fl) { int csraddr = addr - CSR_REGISTER_BASE; unsigned long flags; quadlet_t *regptr = NULL; if (csraddr & 0x3) return RCODE_TYPE_ERROR; if (csraddr < CSR_BUS_MANAGER_ID || csraddr > CSR_CHANNELS_AVAILABLE_LO || extcode != EXTCODE_COMPARE_SWAP) goto unsupported_lockreq; data = be32_to_cpu(data); arg = be32_to_cpu(arg); /* Is somebody releasing the broadcast_channel on us? */ if (csraddr == CSR_CHANNELS_AVAILABLE_HI && (data & 0x1)) { /* Note: this is may not be the right way to handle * the problem, so we should look into the proper way * eventually. */ HPSB_WARN("Node [" NODE_BUS_FMT "] wants to release " "broadcast channel 31. Ignoring.", NODE_BUS_ARGS(host, nodeid)); data &= ~0x1; /* keep broadcast channel allocated */ } if (host->driver->hw_csr_reg) { quadlet_t old; old = host->driver-> hw_csr_reg(host, (csraddr - CSR_BUS_MANAGER_ID) >> 2, data, arg); *store = cpu_to_be32(old); return RCODE_COMPLETE; } spin_lock_irqsave(&host->csr.lock, flags); switch (csraddr) { case CSR_BUS_MANAGER_ID: regptr = &host->csr.bus_manager_id; *store = cpu_to_be32(*regptr); if (*regptr == arg) *regptr = data; break; case CSR_BANDWIDTH_AVAILABLE: { quadlet_t bandwidth; quadlet_t old; quadlet_t new; regptr = &host->csr.bandwidth_available; old = *regptr; /* bandwidth available algorithm adapted from IEEE 1394a-2000 spec */ if (arg > 0x1fff) { *store = cpu_to_be32(old); /* change nothing */ break; } data &= 0x1fff; if (arg >= data) { /* allocate bandwidth */ bandwidth = arg - data; if (old >= bandwidth) { new = old - bandwidth; *store = cpu_to_be32(arg); *regptr = new; } else { *store = cpu_to_be32(old); } } else { /* deallocate bandwidth */ bandwidth = data - arg; if (old + bandwidth < 0x2000) { new = old + bandwidth; *store = cpu_to_be32(arg); *regptr = new; } else { *store = cpu_to_be32(old); } } break; } case CSR_CHANNELS_AVAILABLE_HI: { /* Lock algorithm for CHANNELS_AVAILABLE as recommended by 1394a-2000 */ quadlet_t affected_channels = arg ^ data; regptr = &host->csr.channels_available_hi; if ((arg & affected_channels) == (*regptr & affected_channels)) { *regptr ^= affected_channels; *store = cpu_to_be32(arg); } else { *store = cpu_to_be32(*regptr); } break; } case CSR_CHANNELS_AVAILABLE_LO: { /* Lock algorithm for CHANNELS_AVAILABLE as recommended by 1394a-2000 */ quadlet_t affected_channels = arg ^ data; regptr = &host->csr.channels_available_lo; if ((arg & affected_channels) == (*regptr & affected_channels)) { *regptr ^= affected_channels; *store = cpu_to_be32(arg); } else { *store = cpu_to_be32(*regptr); } break; } } spin_unlock_irqrestore(&host->csr.lock, flags); return RCODE_COMPLETE; unsupported_lockreq: switch (csraddr) { case CSR_STATE_CLEAR: case CSR_STATE_SET: case CSR_RESET_START: case CSR_NODE_IDS: case CSR_SPLIT_TIMEOUT_HI: case CSR_SPLIT_TIMEOUT_LO: case CSR_CYCLE_TIME: case CSR_BUS_TIME: case CSR_BROADCAST_CHANNEL: return RCODE_TYPE_ERROR; case CSR_BUSY_TIMEOUT: /* not yet implemented - fall through */ default: return RCODE_ADDRESS_ERROR; } } static int lock64_regs(struct hpsb_host *host, int nodeid, octlet_t * store, u64 addr, octlet_t data, octlet_t arg, int extcode, u16 fl) { int csraddr = addr - CSR_REGISTER_BASE; unsigned long flags; data = be64_to_cpu(data); arg = be64_to_cpu(arg); if (csraddr & 0x3) return RCODE_TYPE_ERROR; if (csraddr != CSR_CHANNELS_AVAILABLE || extcode != EXTCODE_COMPARE_SWAP) goto unsupported_lock64req; /* Is somebody releasing the broadcast_channel on us? */ if (csraddr == CSR_CHANNELS_AVAILABLE_HI && (data & 0x100000000ULL)) { /* Note: this is may not be the right way to handle * the problem, so we should look into the proper way * eventually. */ HPSB_WARN("Node [" NODE_BUS_FMT "] wants to release " "broadcast channel 31. Ignoring.", NODE_BUS_ARGS(host, nodeid)); data &= ~0x100000000ULL; /* keep broadcast channel allocated */ } if (host->driver->hw_csr_reg) { quadlet_t data_hi, data_lo; quadlet_t arg_hi, arg_lo; quadlet_t old_hi, old_lo; data_hi = data >> 32; data_lo = data & 0xFFFFFFFF; arg_hi = arg >> 32; arg_lo = arg & 0xFFFFFFFF; old_hi = host->driver->hw_csr_reg(host, (csraddr - CSR_BUS_MANAGER_ID) >> 2, data_hi, arg_hi); old_lo = host->driver->hw_csr_reg(host, ((csraddr + 4) - CSR_BUS_MANAGER_ID) >> 2, data_lo, arg_lo); *store = cpu_to_be64(((octlet_t)old_hi << 32) | old_lo); } else { octlet_t old; octlet_t affected_channels = arg ^ data; spin_lock_irqsave(&host->csr.lock, flags); old = ((octlet_t)host->csr.channels_available_hi << 32) | host->csr.channels_available_lo; if ((arg & affected_channels) == (old & affected_channels)) { host->csr.channels_available_hi ^= (affected_channels >> 32); host->csr.channels_available_lo ^= (affected_channels & 0xffffffff); *store = cpu_to_be64(arg); } else { *store = cpu_to_be64(old); } spin_unlock_irqrestore(&host->csr.lock, flags); } /* Is somebody erroneously releasing the broadcast_channel on us? */ if (host->csr.channels_available_hi & 0x1) host->csr.channels_available_hi &= ~0x1; return RCODE_COMPLETE; unsupported_lock64req: switch (csraddr) { case CSR_STATE_CLEAR: case CSR_STATE_SET: case CSR_RESET_START: case CSR_NODE_IDS: case CSR_SPLIT_TIMEOUT_HI: case CSR_SPLIT_TIMEOUT_LO: case CSR_CYCLE_TIME: case CSR_BUS_TIME: case CSR_BUS_MANAGER_ID: case CSR_BROADCAST_CHANNEL: case CSR_BUSY_TIMEOUT: case CSR_BANDWIDTH_AVAILABLE: return RCODE_TYPE_ERROR; default: return RCODE_ADDRESS_ERROR; } } static int write_fcp(struct hpsb_host *host, int nodeid, int dest, quadlet_t *data, u64 addr, size_t length, u16 flags) { int csraddr = addr - CSR_REGISTER_BASE; if (length > 512) return RCODE_TYPE_ERROR; switch (csraddr) { case CSR_FCP_COMMAND: highlevel_fcp_request(host, nodeid, 0, (u8 *)data, length); break; case CSR_FCP_RESPONSE: highlevel_fcp_request(host, nodeid, 1, (u8 *)data, length); break; default: return RCODE_TYPE_ERROR; } return RCODE_COMPLETE; } static struct hpsb_highlevel csr_highlevel = { .name = "standard registers", .add_host = add_host, .host_reset = host_reset, }; static struct hpsb_address_ops map_ops = { .read = read_maps, }; static struct hpsb_address_ops fcp_ops = { .write = write_fcp, }; static struct hpsb_address_ops reg_ops = { .read = read_regs, .write = write_regs, .lock = lock_regs, .lock64 = lock64_regs, }; void init_csr(void) { hpsb_register_highlevel(&csr_highlevel); hpsb_register_addrspace(&csr_highlevel, ®_ops, CSR_REGISTER_BASE, CSR_REGISTER_BASE + CSR_CONFIG_ROM); hpsb_register_addrspace(&csr_highlevel, &map_ops, CSR_REGISTER_BASE + CSR_CONFIG_ROM, CSR_REGISTER_BASE + CSR_CONFIG_ROM_END); if (fcp) { hpsb_register_addrspace(&csr_highlevel, &fcp_ops, CSR_REGISTER_BASE + CSR_FCP_COMMAND, CSR_REGISTER_BASE + CSR_FCP_END); } hpsb_register_addrspace(&csr_highlevel, &map_ops, CSR_REGISTER_BASE + CSR_TOPOLOGY_MAP, CSR_REGISTER_BASE + CSR_TOPOLOGY_MAP_END); hpsb_register_addrspace(&csr_highlevel, &map_ops, CSR_REGISTER_BASE + CSR_SPEED_MAP, CSR_REGISTER_BASE + CSR_SPEED_MAP_END); } void cleanup_csr(void) { hpsb_unregister_highlevel(&csr_highlevel); }
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