yardstick -

Age	Commit message (Expand)	Author	Files	Lines
2017-10-06	Fixed compilation of latest samplevnf	Maciej Skrocki	1	-0/+2
2017-09-30	add collectd ansible	Ross Brattain	1	-0/+9
2017-09-05	Introduced ansible playbook to setup NSB.	Maciej Skrocki	1	-1/+0
2017-08-23	ansible: update dpdk, trex and samplevnf install	Ross Brattain	1	-0/+43

/* * Copyright (C) 2013 Michael Brown <mbrown@fensystems.co.uk>. * * 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 ); /** @file * * Portable anymap format (PNM) * */ #include <stdlib.h> #include <errno.h> #include <ctype.h> #include <ipxe/image.h> #include <ipxe/pixbuf.h> #include <ipxe/pnm.h> /** * Extract PNM ASCII value * * @v image PNM image * @v pnm PNM context * @ret value Value, or negative error */ static int pnm_ascii ( struct image *image, struct pnm_context *pnm ) { char buf[ pnm->ascii_len + 1 /* NUL */ ]; char *endp; size_t len; int value; int in_comment = 0; /* Skip any leading whitespace and comments */ for ( ; pnm->offset < image->len ; pnm->offset++ ) { copy_from_user ( &buf[0], image->data, pnm->offset, sizeof ( buf[0] ) ); if ( in_comment ) { if ( buf[0] == '\n' ) in_comment = 0; } else { if ( buf[0] == '#' ) { in_comment = 1; } else if ( ! isspace ( buf[0] ) ) { break; } } } /* Fail if no value is present */ len = ( image->len - pnm->offset ); if ( len == 0 ) { DBGC ( image, "PNM %s ran out of ASCII data\n", image->name ); return -EINVAL; } /* Copy ASCII value to buffer and ensure string is NUL-terminated */ if ( len > ( sizeof ( buf ) - 1 /* NUL */ ) ) len = ( sizeof ( buf ) - 1 /* NUL */ ); copy_from_user ( buf, image->data, pnm->offset, len ); buf[len] = '\0'; /* Parse value and update offset */ value = strtoul ( buf, &endp, 0 ); pnm->offset += ( endp - buf ); /* Check and skip terminating whitespace character, if present */ if ( ( pnm->offset != image->len ) && ( *endp != '\0' ) ) { if ( ! isspace ( *endp ) ) { DBGC ( image, "PNM %s invalid ASCII integer\n", image->name ); return -EINVAL; } pnm->offset++; } return value; } /** * Extract PNM binary value * * @v image PNM image * @v pnm PNM context * @ret value Value, or negative error */ static int pnm_binary ( struct image *image, struct pnm_context *pnm ) { uint8_t value; /* Sanity check */ if ( pnm->offset == image->len ) { DBGC ( image, "PNM %s ran out of binary data\n", image->name ); return -EINVAL; } /* Extract value */ copy_from_user ( &value, image->data, pnm->offset, sizeof ( value ) ); pnm->offset++; return value; } /** * Scale PNM scalar value * * @v image PNM image * @v pnm PNM context * @v value Raw value * @ret value Scaled value (in range 0-255) */ static int pnm_scale ( struct image *image, struct pnm_context *pnm, unsigned int value ) { if ( value > pnm->max ) { DBGC ( image, "PNM %s has out-of-range value %d (max %d)\n", image->name, value, pnm->max ); return -EINVAL; } return ( ( 255 * value ) / pnm->max ); } /** * Convert PNM bitmap composite value to RGB * * @v composite Composite value * @v index Pixel index within this composite value * @ret rgb 24-bit RGB value */ static uint32_t pnm_bitmap ( uint32_t composite, unsigned int index ) { /* Composite value is an 8-bit bitmask */ return ( ( ( composite << index ) & 0x80 ) ? 0x000000 : 0xffffff ); } /** * Convert PNM greymap composite value to RGB * * @v composite Composite value * @v index Pixel index within this composite value * @ret rgb 24-bit RGB value */ static uint32_t pnm_greymap ( uint32_t composite, unsigned int index __unused ){ /* Composite value is an 8-bit greyscale value */ return ( ( composite << 16 ) | ( composite << 8 ) | composite ); } /** * Convert PNM pixmap composite value to RGB * * @v composite Composite value * @v index Pixel index within this composite value * @ret rgb 24-bit RGB value */ static uint32_t pnm_pixmap ( uint32_t composite, unsigned int index __unused ) { /* Composite value is already an RGB value */ return composite; } /** * Extract PNM pixel data * * @v image PNM image * @v pnm PNM context * @v pixbuf Pixel buffer * @ret rc Return status code */ static int pnm_data ( struct image *image, struct pnm_context *pnm, struct pixel_buffer *pixbuf ) { struct pnm_type *type = pnm->type; size_t offset = 0; unsigned int xpos = 0; int scalar; uint32_t composite; uint32_t rgb; unsigned int i; /* Fill pixel buffer */ while ( offset < pixbuf->len ) { /* Extract a scaled composite scalar value from the file */ composite = 0; for ( i = 0 ; i < type->depth ; i++ ) { scalar = type->scalar ( image, pnm ); if ( scalar < 0 ) return scalar; scalar = pnm_scale ( image, pnm, scalar ); if ( scalar < 0 ) return scalar; composite = ( ( composite << 8 ) | scalar ); } /* Extract 24-bit RGB values from composite value */ for ( i = 0 ; i < type->packing ; i++ ) { if ( offset >= pixbuf->len ) { DBGC ( image, "PNM %s has too many pixels\n", image->name ); return -EINVAL; } rgb = type->rgb ( composite, i ); copy_to_user ( pixbuf->data, offset, &rgb, sizeof ( rgb ) ); offset += sizeof ( rgb ); if ( ++xpos == pixbuf->width ) { xpos = 0; break; } } } return 0; } /** PNM image types */ static struct pnm_type pnm_types[] = { { .type = '1', .depth = 1, .packing = 1, .flags = PNM_BITMAP, .scalar = pnm_ascii, .rgb = pnm_bitmap, }, { .type = '2', .depth = 1, .packing = 1, .scalar = pnm_ascii, .rgb = pnm_greymap, }, { .type = '3', .depth = 3, .packing = 1, .scalar = pnm_ascii, .rgb = pnm_pixmap, }, { .type = '4', .depth = 1, .packing = 8, .flags = PNM_BITMAP, .scalar = pnm_binary, .rgb = pnm_bitmap, }, { .type = '5', .depth = 1, .packing = 1, .scalar = pnm_binary, .rgb = pnm_greymap, }, { .type = '6', .depth = 3, .packing = 1, .scalar = pnm_binary, .rgb = pnm_pixmap, }, }; /** * Determine PNM image type * * @v image PNM image * @ret type PNM image type, or NULL if not found */ static struct pnm_type * pnm_type ( struct image *image ) { struct pnm_signature signature; struct pnm_type *type; unsigned int i; /* Extract signature */ assert ( image->len >= sizeof ( signature ) ); copy_from_user ( &signature, image->data, 0, sizeof ( signature ) ); /* Check for supported types */ for ( i = 0 ; i < ( sizeof ( pnm_types ) / sizeof ( pnm_types[0] ) ) ; i++ ) { type = &pnm_types[i]; if ( type->type == signature.type ) return type; } return NULL; } /** * Convert PNM image to pixel buffer * * @v image PNM image * @v pixbuf Pixel buffer to fill in * @ret rc Return status code */ static int pnm_pixbuf ( struct image *image, struct pixel_buffer **pixbuf ) { struct pnm_context pnm; int width; int height; int max; int rc; /* Initialise PNM context */ pnm.type = pnm_type ( image ); if ( ! pnm.type ) { rc = -ENOTSUP; goto err_type; } pnm.offset = sizeof ( struct pnm_signature ); pnm.ascii_len = PNM_ASCII_LEN; /* Extract width */ if ( ( width = pnm_ascii ( image, &pnm ) ) < 0 ) { rc = width; goto err_width; } /* Extract height */ if ( ( height = pnm_ascii ( image, &pnm ) ) < 0 ) { rc = height; goto err_height; } /* Extract maximum scalar value, if not predefined */ if ( pnm.type->flags & PNM_BITMAP ) { pnm.max = ( ( 1 << pnm.type->packing ) - 1 ); pnm.ascii_len = 1; } else { if ( ( max = pnm_ascii ( image, &pnm ) ) < 0 ) { rc = max; goto err_max; } pnm.max = max; } if ( pnm.max == 0 ) { DBGC ( image, "PNM %s has invalid maximum value 0\n", image->name ); rc = -EINVAL; goto err_max; } DBGC ( image, "PNM %s is type %c width %d height %d max %d\n", image->name, pnm.type->type, width, height, pnm.max ); /* Allocate pixel buffer */ *pixbuf = alloc_pixbuf ( width, height ); if ( ! *pixbuf ) { rc = -ENOMEM; goto err_alloc_pixbuf; } /* Extract pixel data */ if ( ( rc = pnm_data ( image, &pnm, *pixbuf ) ) != 0 ) goto err_data; return 0; err_data: pixbuf_put ( *pixbuf ); err_alloc_pixbuf: err_max: err_height: err_width: err_type: return rc; } /** * Probe PNM image * * @v image PNM image * @ret rc Return status code */ static int pnm_probe ( struct image *image ) { struct pnm_signature signature; /* Sanity check */ if ( image->len < sizeof ( signature ) ) { DBGC ( image, "PNM %s is too short\n", image->name ); return -ENOEXEC; } /* Check signature */ copy_from_user ( &signature, image->data, 0, sizeof ( signature ) ); if ( ! ( ( signature.magic == PNM_MAGIC ) && ( isdigit ( signature.type ) ) && ( isspace ( signature.space ) ) ) ) { DBGC ( image, "PNM %s has invalid signature\n", image->name ); return -ENOEXEC; } DBGC ( image, "PNM %s is type %c\n", image->name, signature.type ); return 0; } /** PNM image type */ struct image_type pnm_image_type __image_type ( PROBE_NORMAL ) = { .name = "PNM", .probe = pnm_probe, .pixbuf = pnm_pixbuf, };