/* * Copyright (C) 2010 Michael Brown . * * 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 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., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA. * * You can also choose to distribute this program under the terms of * the Unmodified Binary Distribution Licence (as given in the file * COPYING.UBDL), provided that you have satisfied its requirements. */ FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL ); #include #include #include #include #include #include #include #include /** @file * * PCI Vital Product Data * */ /** * Initialise PCI Vital Product Data * * @v vpd PCI VPD * @v pci PCI device * @ret rc Return status code */ int pci_vpd_init ( struct pci_vpd *vpd, struct pci_device *pci ) { /* Initialise structure */ vpd->pci = pci; pci_vpd_invalidate_cache ( vpd ); /* Locate VPD capability */ vpd->cap = pci_find_capability ( pci, PCI_CAP_ID_VPD ); if ( ! vpd->cap ) { DBGC ( vpd, PCI_FMT " does not support VPD\n", PCI_ARGS ( pci ) ); return -ENOTTY; } DBGC ( vpd, PCI_FMT " VPD is at offset %02x\n", PCI_ARGS ( pci ), vpd->cap ); return 0; } /** * Read one dword of PCI Vital Product Data * * @v vpd PCI VPD * @v address Address to read * @ret data Read data * @ret rc Return status code */ static int pci_vpd_read_dword ( struct pci_vpd *vpd, int address, uint32_t *data ) { struct pci_device *pci = vpd->pci; unsigned int cap = vpd->cap; unsigned int retries; uint16_t flag; /* Fail if no VPD present */ if ( ! cap ) return -ENOTTY; /* Return cached value, if present */ if ( pci_vpd_cache_is_valid ( vpd ) && ( vpd->cache.address == address ) ) { *data = vpd->cache.data; return 0; } /* Initiate read */ pci_write_config_word ( pci, ( cap + PCI_VPD_ADDRESS ), address ); /* Wait for read to complete */ for ( retries = 0 ; retries < PCI_VPD_MAX_WAIT_MS ; retries++ ) { /* Check if data is ready */ pci_read_config_word ( pci, ( cap + PCI_VPD_ADDRESS ), &flag ); if ( flag & PCI_VPD_FLAG ) { /* Read data */ pci_read_config_dword ( pci, ( cap + PCI_VPD_DATA ), data ); DBGC2 ( vpd, PCI_FMT " VPD %04x => %08x\n", PCI_ARGS ( pci ), address, htonl ( *data ) ); /* Populate cache */ vpd->cache.address = address; vpd->cache.data = *data; return 0; } /* Wait 1ms before retrying */ mdelay ( 1 ); } DBGC ( vpd, PCI_FMT " VPD %04x read via %02x timed out\n", PCI_ARGS ( pci ), address, cap ); return -ETIMEDOUT; } /** * Write one dword of PCI Vital Product Data * * @v vpd PCI VPD * @v address Address to write * @v data Data to write * @ret rc Return status code */ static int pci_vpd_write_dword ( struct pci_vpd *vpd, int address, uint32_t data ) { struct pci_device *pci = vpd->pci; unsigned int cap = vpd->cap; unsigned int retries; uint16_t flag; /* Fail if no VPD present */ if ( ! cap ) return -ENOTTY; /* Invalidate cache */ pci_vpd_invalidate_cache ( vpd ); DBGC2 ( vpd, PCI_FMT " VPD %04x <= %08x\n", PCI_ARGS ( pci ), address, htonl ( data ) ); /* Write data */ pci_write_config_dword ( pci, ( cap + PCI_VPD_DATA ), data ); /* Initiate write */ pci_write_config_word ( pci, ( cap + PCI_VPD_ADDRESS ), ( address | PCI_VPD_FLAG ) ); /* Wait for write to complete */ for ( retries = 0 ; retries < PCI_VPD_MAX_WAIT_MS ; retries++ ) { /* Check if write has completed */ pci_read_config_word ( pci, ( cap + PCI_VPD_ADDRESS ), &flag ); if ( ! ( flag & PCI_VPD_FLAG ) ) return 0; /* Wait 1ms before retrying */ mdelay ( 1 ); } DBGC ( vpd, PCI_FMT " VPD %04x write via %02x timed out\n", PCI_ARGS ( pci ), address, cap ); return -ETIMEDOUT; } /** * Read PCI VPD * * @v vpd PCI VPD * @v address Starting address * @v buf Data buffer * @v len Length of data buffer * @ret rc Return status code */ int pci_vpd_read ( struct pci_vpd *vpd, unsigned int address, void *buf, size_t len ) { uint8_t *bytes = buf; uint32_t data; size_t skip_len; unsigned int i; int rc; /* Calculate length to skip at start of data */ skip_len = ( address & 0x03 ); /* Read data, a dword at a time */ for ( address &= ~0x03 ; len ; address += 4 ) { /* Read whole dword */ if ( ( rc = pci_vpd_read_dword ( vpd, address, &data ) ) != 0 ) return rc; /* Copy data to buffer */ for ( i = 4 ; i ; i-- ) { if ( skip_len ) { skip_len--; } else if ( len ) { *(bytes++) = data; len--; } data = ( ( data << 24 ) | ( data >> 8 ) ); } } return 0; } /** * Write PCI VPD * * @v vpd PCI VPD * @v address Starting address * @v buf Data buffer * @v len Length of data buffer * @ret rc Return status code */ int pci_vpd_write ( struct pci_vpd *vpd, unsigned int address, const void *buf, size_t len ) { const uint8_t *bytes = buf; uint32_t data; size_t skip_len; unsigned int i; int rc; /* Calculate length to skip at start of data */ skip_len = ( address & 0x03 ); /* Write data, a dword at a time */ for ( address &= ~0x03 ; len ; address += 4 ) { /* Read existing dword, if necessary */ if ( skip_len || ( len <= 0x03 ) ) { if ( ( rc = pci_vpd_read_dword ( vpd, address, &data ) ) != 0 ) return rc; } /* Copy data from buffer */ for ( i = 4 ; i ; i-- ) { if ( skip_len ) { skip_len--; } else if ( len ) { data = ( ( data & ~0xff ) | *(bytes++) ); len--; } data = ( ( data << 24 ) | ( data >> 8 ) ); } /* Write whole dword */ if ( ( rc = pci_vpd_write_dword ( vpd, address, data ) ) != 0 ) return rc; } return 0; } /** * Dump PCI VPD region (for debugging) * * @v vpd PCI VPD * @v address Starting address * @v len Length of data */ static void pci_vpd_dump ( struct pci_vpd *vpd, unsigned int address, size_t len ) { int rc; /* Do nothing in non-debug builds */ if ( ! DBG_LOG ) return; /* Read data */ { char buf[len]; if ( ( rc = pci_vpd_read ( vpd, address, buf, sizeof ( buf ) ) ) != 0 ) return; DBGC_HDA ( vpd, address, buf, sizeof ( buf ) ); } } /** * Locate PCI VPD tag * * @v vpd PCI VPD * @v tag ISAPnP tag * @ret address Address of tag body * @ret len Length of tag body * @ret rc Return status code */ static int pci_vpd_find_tag ( struct pci_vpd *vpd, unsigned int tag, unsigned int *address, size_t *len ) { uint8_t read_tag; uint16_t read_len; int rc; /* Scan through tags looking for a match */ *address = 0; do { /* Read tag byte */ if ( ( rc = pci_vpd_read ( vpd, (*address)++, &read_tag, sizeof ( read_tag ) ) ) != 0 ) return rc; /* Extract tag and length */ if ( ISAPNP_IS_LARGE_TAG ( read_tag ) ) { if ( ( rc = pci_vpd_read ( vpd, *address, &read_len, sizeof ( read_len ) ) ) != 0) return rc; *address += sizeof ( read_len ); read_len = le16_to_cpu ( read_len ); read_tag = ISAPNP_LARGE_TAG_NAME ( read_tag ); } else { read_len = ISAPNP_SMALL_TAG_LEN ( read_tag ); read_tag = ISAPNP_SMALL_TAG_NAME ( read_tag ); } /* Check for tag match */ if ( tag == read_tag ) { *len = read_len; DBGC ( vpd, PCI_FMT " VPD tag %02x is at " "[%04x,%04zx)\n", PCI_ARGS ( vpd->pci ), tag, *address, ( *address + *len ) ); return 0; } /* Move to next tag */ *address += read_len; } while ( read_tag != ISAPNP_TAG_END ); DBGC ( vpd, PCI_FMT " VPD tag %02x not found\n", PCI_ARGS ( vpd->pci ), tag ); return -ENOENT; } /** * Locate PCI VPD field * * @v vpd PCI VPD * @v field VPD field descriptor * @ret address Address of field body * @ret len Length of field body * @ret rc Return status code */ int pci_vpd_find ( struct pci_vpd *vpd, unsigned int field, unsigned int *address, size_t *len ) { struct pci_vpd_field read_field; int rc; /* Locate containing tag */ if ( ( rc = pci_vpd_find_tag ( vpd, PCI_VPD_TAG ( field ), address, len ) ) != 0 ) return rc; /* Return immediately if we are searching for a whole-tag field */ if ( ! PCI_VPD_KEYWORD ( field ) ) { pci_vpd_dump ( vpd, *address, *len ); return 0; } /* Scan through fields looking for a match */ while ( *len >= sizeof ( read_field ) ) { /* Read field header */ if ( ( rc = pci_vpd_read ( vpd, *address, &read_field, sizeof ( read_field ) ) ) != 0 ) return rc; *address += sizeof ( read_field ); *len -= sizeof ( read_field ); /* Check for keyword match */ if ( read_field.keyword == PCI_VPD_KEYWORD ( field ) ) { *len = read_field.len; DBGC ( vpd, PCI_FMT " VPD field " PCI_VPD_FIELD_FMT " is at [%04x,%04zx)\n", PCI_ARGS ( vpd->pci ), PCI_VPD_FIELD_ARGS ( field ), *address, ( *address + *len ) ); pci_vpd_dump ( vpd, *address, *len ); return 0; } /* Move to next field */ if ( read_field.len > *len ) break; *address += read_field.len; *len -= read_field.len; } DBGC ( vpd, PCI_FMT " VPD field " PCI_VPD_FIELD_FMT " not found\n", PCI_ARGS ( vpd->pci ), PCI_VPD_FIELD_ARGS ( field ) ); return -ENOENT; } /** * Resize VPD field * * @v vpd PCI VPD * @v field VPD field descriptor * @v len New length of field body * @ret address Address of field body * @ret rc Return status code */ int pci_vpd_resize ( struct pci_vpd *vpd, unsigned int field, size_t len, unsigned int *address ) { struct pci_vpd_field rw_field; struct pci_vpd_field old_field; struct pci_vpd_field new_field; unsigned int rw_address; unsigned int old_address; unsigned int copy_address; unsigned int dst_address; unsigned int dump_address; size_t rw_len; size_t old_len; size_t available_len; size_t copy_len; size_t dump_len; void *copy; int rc; /* Sanity checks */ assert ( PCI_VPD_TAG ( field ) == PCI_VPD_TAG_RW ); assert ( PCI_VPD_KEYWORD ( field ) != 0 ); assert ( field != PCI_VPD_FIELD_RW ); /* Locate 'RW' field */ if ( ( rc = pci_vpd_find ( vpd, PCI_VPD_FIELD_RW, &rw_address, &rw_len ) ) != 0 ) goto err_no_rw; /* Locate old field, if any */ if ( ( rc = pci_vpd_find ( vpd, field, &old_address, &old_len ) ) == 0 ) { /* Field already exists */ if ( old_address > rw_address ) { DBGC ( vpd, PCI_FMT " VPD field " PCI_VPD_FIELD_FMT " at [%04x,%04zx) is after field " PCI_VPD_FIELD_FMT " at [%04x,%04zx)\n", PCI_ARGS ( vpd->pci ), PCI_VPD_FIELD_ARGS ( field ), old_address, ( old_address + old_len ), PCI_VPD_FIELD_ARGS ( PCI_VPD_FIELD_RW ), rw_address, ( rw_address + rw_len ) ); rc = -ENXIO; goto err_after_rw; } dst_address = ( old_address - sizeof ( old_field ) ); copy_address = ( old_address + old_len ); copy_len = ( rw_address - sizeof ( rw_field ) - copy_address ); /* Calculate available length */ available_len = ( rw_len + old_len ); } else { /* Field does not yet exist */ dst_address = ( rw_address - sizeof ( rw_field ) ); copy_address = dst_address; copy_len = 0; /* Calculate available length */ available_len = ( ( rw_len > sizeof ( new_field ) ) ? ( rw_len - sizeof ( new_field ) ) : 0 ); } /* Dump region before changes */ dump_address = dst_address; dump_len = ( rw_address + rw_len - dump_address ); DBGC ( vpd, PCI_FMT " VPD before resizing field " PCI_VPD_FIELD_FMT " to %zd bytes:\n", PCI_ARGS ( vpd->pci ), PCI_VPD_FIELD_ARGS ( field ), len ); pci_vpd_dump ( vpd, dump_address, dump_len ); /* Check available length */ if ( available_len > PCI_VPD_MAX_LEN ) available_len = PCI_VPD_MAX_LEN; if ( len > available_len ) { DBGC ( vpd, PCI_FMT " VPD no space for field " PCI_VPD_FIELD_FMT " (need %02zx, have %02zx)\n", PCI_ARGS ( vpd->pci ), PCI_VPD_FIELD_ARGS ( field ), len, available_len ); rc = -ENOSPC; goto err_no_space; } /* Preserve intermediate fields, if any */ copy = malloc ( copy_len ); if ( ! copy ) { rc = -ENOMEM; goto err_copy_alloc; } if ( ( rc = pci_vpd_read ( vpd, copy_address, copy, copy_len ) ) != 0 ) goto err_copy_read; /* Create new field, if applicable */ if ( len ) { new_field.keyword = PCI_VPD_KEYWORD ( field ); new_field.len = len; if ( ( rc = pci_vpd_write ( vpd, dst_address, &new_field, sizeof ( new_field ) ) ) != 0 ) goto err_new_write; dst_address += sizeof ( new_field ); *address = dst_address; DBGC ( vpd, PCI_FMT " VPD field " PCI_VPD_FIELD_FMT " is now " "at [%04x,%04x)\n", PCI_ARGS ( vpd->pci ), PCI_VPD_FIELD_ARGS ( field ), dst_address, ( dst_address + new_field.len ) ); dst_address += len; } else { DBGC ( vpd, PCI_FMT " VPD field " PCI_VPD_FIELD_FMT " no longer exists\n", PCI_ARGS ( vpd->pci ), PCI_VPD_FIELD_ARGS ( field ) ); } /* Restore intermediate fields, if any */ if ( ( rc = pci_vpd_write ( vpd, dst_address, copy, copy_len ) ) != 0 ) goto err_copy_write; dst_address += copy_len; /* Create 'RW' field */ rw_field.keyword = PCI_VPD_KEYWORD ( PCI_VPD_FIELD_RW ); rw_field.len = ( rw_len + ( rw_address - sizeof ( rw_field ) ) - dst_address ); if ( ( rc = pci_vpd_write ( vpd, dst_address, &rw_field, sizeof ( rw_field ) ) ) != 0 ) goto err_rw_write; dst_address += sizeof ( rw_field ); DBGC ( vpd, PCI_FMT " VPD field " PCI_VPD_FIELD_FMT " is now " "at [%04x,%04x)\n", PCI_ARGS ( vpd->pci ), PCI_VPD_FIELD_ARGS ( PCI_VPD_FIELD_RW ), dst_address, ( dst_address + rw_field.len ) ); /* Dump region after changes */ DBGC ( vpd, PCI_FMT " VPD after resizing field " PCI_VPD_FIELD_FMT " to %zd bytes:\n", PCI_ARGS ( vpd->pci ), PCI_VPD_FIELD_ARGS ( field ), len ); pci_vpd_dump ( vpd, dump_address, dump_len ); rc = 0; err_rw_write: err_new_write: err_copy_write: err_copy_read: free ( copy ); err_copy_alloc: err_no_space: err_after_rw: err_no_rw: return rc; }