π¨ CVE-2017-20275
Joomla! Component PHP-Bridge 1.2.3 contains an SQL injection vulnerability that allows unauthenticated attackers to execute arbitrary SQL queries by injecting malicious code through the id parameter. Attackers can send GET requests to index.php with option=com_phpbridge&view=phpview parameters and inject SQL code in the id parameter to extract database information including table and column names.
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Joomla! Component PHP-Bridge 1.2.3 contains an SQL injection vulnerability that allows unauthenticated attackers to execute arbitrary SQL queries by injecting malicious code through the id parameter. Attackers can send GET requests to index.php with option=com_phpbridge&view=phpview parameters and inject SQL code in the id parameter to extract database information including table and column names.
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Exploit Database
Joomla! Component PHP-Bridge 1.2.3 - SQL Injection
Joomla! Component PHP-Bridge 1.2.3 - SQL Injection.. webapps exploit for PHP platform
π¨ CVE-2017-20276
Joomla! Component SIMGenealogy 2.1.5 contains an SQL injection vulnerability that allows unauthenticated attackers to manipulate database queries by injecting SQL code through the type parameter. Attackers can send GET requests to index.php with the option=com_simgenealogy, view=latest parameters and inject malicious SQL in the type parameter to extract sensitive database information.
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Joomla! Component SIMGenealogy 2.1.5 contains an SQL injection vulnerability that allows unauthenticated attackers to manipulate database queries by injecting SQL code through the type parameter. Attackers can send GET requests to index.php with the option=com_simgenealogy, view=latest parameters and inject malicious SQL in the type parameter to extract sensitive database information.
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Exploit Database
Joomla! Component SIMGenealogy 2.1.5 - SQL Injection
Joomla! Component SIMGenealogy 2.1.5 - SQL Injection.. webapps exploit for PHP platform
π¨ CVE-2017-20277
Joomla JoomRecipe 1.0.4 component contains a blind SQL injection vulnerability in the search_author parameter on the search results page. Attackers can inject SQL code through POST requests to the search endpoint to extract database information using boolean-based blind SQL injection techniques.
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Joomla JoomRecipe 1.0.4 component contains a blind SQL injection vulnerability in the search_author parameter on the search results page. Attackers can inject SQL code through POST requests to the search endpoint to extract database information using boolean-based blind SQL injection techniques.
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JoomBoost
Free and Premium Joomla Extensions and Templates
We provide the highest quality of Joomla extensions (components, modules and plugins), templates and services for your Joomla websites.
π¨ CVE-2017-20278
Joomla Component JoomRecipe 1.0.3 contains an SQL injection vulnerability that allows unauthenticated attackers to manipulate database queries by injecting SQL code through the category parameter. Attackers can send GET requests to the all-recipes endpoint with malicious SQL payloads in the category path segment to extract sensitive database information.
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Joomla Component JoomRecipe 1.0.3 contains an SQL injection vulnerability that allows unauthenticated attackers to manipulate database queries by injecting SQL code through the category parameter. Attackers can send GET requests to the all-recipes endpoint with malicious SQL payloads in the category path segment to extract sensitive database information.
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Exploit Database
Joomla! Component JoomRecipe 1.0.3 - SQL Injection
Joomla! Component JoomRecipe 1.0.3 - SQL Injection.. webapps exploit for PHP platform
π¨ CVE-2017-20279
Joomla Payage 2.05 contains an SQL injection vulnerability that allows unauthenticated attackers to manipulate database queries by injecting SQL code through the aid parameter. Attackers can send GET requests to index.php with malicious aid values in the make_payment task to extract sensitive database information using boolean-based blind or time-based blind techniques.
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Joomla Payage 2.05 contains an SQL injection vulnerability that allows unauthenticated attackers to manipulate database queries by injecting SQL code through the aid parameter. Attackers can send GET requests to index.php with malicious aid values in the make_payment task to extract sensitive database information using boolean-based blind or time-based blind techniques.
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Exploit Database
Joomla! Component Payage 2.05 - 'aid' SQL Injection
Joomla! Component Payage 2.05 - 'aid' SQL Injection.. webapps exploit for PHP platform
π¨ CVE-2017-20280
Joomla Component Myportfolio 3.0.2 contains an SQL injection vulnerability that allows unauthenticated attackers to manipulate database queries by injecting SQL code through the pid parameter. Attackers can send GET requests to index.php with malicious pid values in the task=project&view=grid endpoint to extract sensitive database information.
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Joomla Component Myportfolio 3.0.2 contains an SQL injection vulnerability that allows unauthenticated attackers to manipulate database queries by injecting SQL code through the pid parameter. Attackers can send GET requests to index.php with malicious pid values in the task=project&view=grid endpoint to extract sensitive database information.
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Exploit Database
Joomla! Component Myportfolio 3.0.2 - 'pid' SQL Injection
Joomla! Component Myportfolio 3.0.2 - 'pid' SQL Injection.. webapps exploit for PHP platform
π¨ CVE-2017-20281
Joomla! Component Extra Search 2.2.8 contains an SQL injection vulnerability that allows unauthenticated attackers to manipulate database queries by injecting SQL code through the establename parameter. Attackers can send GET requests to index.php with the option=com_extrasearch parameter and malicious SQL in the establename field to extract sensitive database information.
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Joomla! Component Extra Search 2.2.8 contains an SQL injection vulnerability that allows unauthenticated attackers to manipulate database queries by injecting SQL code through the establename parameter. Attackers can send GET requests to index.php with the option=com_extrasearch parameter and malicious SQL in the establename field to extract sensitive database information.
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π¨ CVE-2017-20282
Joomla! Component jCart for OpenCart 2.0 contains an SQL injection vulnerability that allows unauthenticated attackers to manipulate database queries by injecting SQL code through the product_id parameter. Attackers can send GET requests to index.php with the option=com_jcart&route=product/product parameters and malicious product_id values to extract sensitive database information.
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Joomla! Component jCart for OpenCart 2.0 contains an SQL injection vulnerability that allows unauthenticated attackers to manipulate database queries by injecting SQL code through the product_id parameter. Attackers can send GET requests to index.php with the option=com_jcart&route=product/product parameters and malicious product_id values to extract sensitive database information.
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π¨ CVE-2019-25748
Joomla JHotelReservation 6.0.7 contains an SQL injection vulnerability that allows unauthenticated attackers to execute arbitrary SQL queries by injecting malicious code through the rooms parameter. Attackers can send POST requests to the search-hotels endpoint with crafted SQL payloads in the rooms parameter to extract sensitive database information including version details.
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Joomla JHotelReservation 6.0.7 contains an SQL injection vulnerability that allows unauthenticated attackers to execute arbitrary SQL queries by injecting malicious code through the rooms parameter. Attackers can send POST requests to the search-hotels endpoint with crafted SQL payloads in the rooms parameter to extract sensitive database information including version details.
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Cmsjunkie
Joomla Extensions and Templates - CMS Junkie
CMS Junkie offers Joomla extensions and templates, themes and extensions for Drupal, Magento and Wordpress, premium top quality commercial products.
π¨ CVE-2026-3195
A flaw was found in QEMU. When reading input audio in the virtio-snd device input callback, the `virtio_snd_pcm_in_cb` function did not check whether the iov could fit the data buffer, potentially leading to a heap out-of-bounds write. This issue exists due to an incomplete fix for CVE-2024-7730.
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A flaw was found in QEMU. When reading input audio in the virtio-snd device input callback, the `virtio_snd_pcm_in_cb` function did not check whether the iov could fit the data buffer, potentially leading to a heap out-of-bounds write. This issue exists due to an incomplete fix for CVE-2024-7730.
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π¨ CVE-2026-49260
PhpWeasyPrint is a PHP library allowing PDF generation from a URL or an HTML page. Prior to version 2.5.1, `pontedilana/php-weasyprint` builds the shell command for WeasyPrint by passing the binary path through `escapeshellarg()` first and then checking the *quoted* result with `is_executable()`. On POSIX `escapeshellarg('/usr/local/bin/weasyprint')` returns `'/usr/local/bin/weasyprint'` with the single-quote characters as part of the string, so `is_executable()` looks for a file whose actual name includes those quotes. That file never exists, the "safe" branch is dead code, and the raw `$binary` string (set via the constructor or `setBinary()`) flows directly into `Symfony\Component\Process\Process::fromShellCommandline()`. Any deployment whose binary path is sourced from configuration, an environment variable, or a per-tenant setting reaches a shell-command-injection sink. The library is documented as a one-to-one substitute for KnpLabs/snappy and inherited the exact pre-fix codepath KnpLabs patched in GHSA-vpr4-p6fq-85jc. PhpWeasyPrint version 2.5.1 contains a patch for the issue.
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PhpWeasyPrint is a PHP library allowing PDF generation from a URL or an HTML page. Prior to version 2.5.1, `pontedilana/php-weasyprint` builds the shell command for WeasyPrint by passing the binary path through `escapeshellarg()` first and then checking the *quoted* result with `is_executable()`. On POSIX `escapeshellarg('/usr/local/bin/weasyprint')` returns `'/usr/local/bin/weasyprint'` with the single-quote characters as part of the string, so `is_executable()` looks for a file whose actual name includes those quotes. That file never exists, the "safe" branch is dead code, and the raw `$binary` string (set via the constructor or `setBinary()`) flows directly into `Symfony\Component\Process\Process::fromShellCommandline()`. Any deployment whose binary path is sourced from configuration, an environment variable, or a per-tenant setting reaches a shell-command-injection sink. The library is documented as a one-to-one substitute for KnpLabs/snappy and inherited the exact pre-fix codepath KnpLabs patched in GHSA-vpr4-p6fq-85jc. PhpWeasyPrint version 2.5.1 contains a patch for the issue.
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GitHub
Binary path is never shell-escaped due to an inverted is_executable check
### Impact
On POSIX, escapeshellarg(β/usr/bin/wkhtmltopdfβ) returns the literal string β/usr/bin/wkhtmltopdfβ with the single-quote characters included. is_executable() then looks for a file who...
On POSIX, escapeshellarg(β/usr/bin/wkhtmltopdfβ) returns the literal string β/usr/bin/wkhtmltopdfβ with the single-quote characters included. is_executable() then looks for a file who...
π¨ CVE-2026-51843
Tenda AC7 v15.03.06.44 contains a stack buffer overflow vulnerability in the /goform/AdvSetMacMtuWan interface via the wanMTU parameter.
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Tenda AC7 v15.03.06.44 contains a stack buffer overflow vulnerability in the /goform/AdvSetMacMtuWan interface via the wanMTU parameter.
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π¨ CVE-2026-51844
Tenda AC7 v15.03.06.44 contains a stack buffer overflow vulnerability in the /goform/AdvSetMacMtuWan interface via the cloneType parameter.
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Tenda AC7 v15.03.06.44 contains a stack buffer overflow vulnerability in the /goform/AdvSetMacMtuWan interface via the cloneType parameter.
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π¨ CVE-2026-51845
Tenda AC7 v15.03.06.44 contains a stack buffer overflow vulnerability in the /goform/AdvSetMacMtuWan interface via the mac parameter.
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Tenda AC7 v15.03.06.44 contains a stack buffer overflow vulnerability in the /goform/AdvSetMacMtuWan interface via the mac parameter.
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π¨ CVE-2026-51846
In Tenda AC7 v15.03.06.44, the wanSpeed parameter of the route /goform/AdvSetMacMtuWan has a stack buffer overflow vulnerability that can lead to remote arbitrary code execution.
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In Tenda AC7 v15.03.06.44, the wanSpeed parameter of the route /goform/AdvSetMacMtuWan has a stack buffer overflow vulnerability that can lead to remote arbitrary code execution.
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π¨ CVE-2026-56208
A heap buffer overflow vulnerability was found in libaom, the reference AV1 codec implementation. A flaw in the AV1 encoder's Look-Ahead Processing (LAP) mode causes the first-pass stats ring buffer wrap-around guard to be bypassed when g_lag_in_frames is set to 1 or higher. This results in a 232-byte out-of-bounds write on every encoded frame after the second, corrupting adjacent heap objects. An attacker who can influence encoder configuration in a transcoding service or WebRTC session could exploit this to cause a denial of service (process crash) or potentially achieve code execution.
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A heap buffer overflow vulnerability was found in libaom, the reference AV1 codec implementation. A flaw in the AV1 encoder's Look-Ahead Processing (LAP) mode causes the first-pass stats ring buffer wrap-around guard to be bypassed when g_lag_in_frames is set to 1 or higher. This results in a 232-byte out-of-bounds write on every encoded frame after the second, corrupting adjacent heap objects. An attacker who can influence encoder configuration in a transcoding service or WebRTC session could exploit this to cause a denial of service (process crash) or potentially achieve code execution.
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π¨ CVE-2026-56209
An arbitrary address write vulnerability was found in libaom, the reference AV1 codec implementation. A missing bounds check in the SVC (Scalable Video Coding) layer ID control function allows an attacker to inject an arbitrary pointer into the cyclic refresh map field via crafted image pixel values. The encoder then writes approximately 1,200 bytes at the attacker-controlled address. This is fully deterministic and does not require a separate information leak. An attacker who can supply frames to a network-facing libaom encoder with SVC enabled could exploit this for denial of service or potential code execution.
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An arbitrary address write vulnerability was found in libaom, the reference AV1 codec implementation. A missing bounds check in the SVC (Scalable Video Coding) layer ID control function allows an attacker to inject an arbitrary pointer into the cyclic refresh map field via crafted image pixel values. The encoder then writes approximately 1,200 bytes at the attacker-controlled address. This is fully deterministic and does not require a separate information leak. An attacker who can supply frames to a network-facing libaom encoder with SVC enabled could exploit this for denial of service or potential code execution.
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π¨ CVE-2026-56210
A heap-buffer-overflow read vulnerability was found in libaom, the reference AV1 codec implementation. A missing bounds check in the SVC (Scalable Video Coding) layer ID control function allows setting a spatial_layer_id exceeding the configured number of layers. This causes an out-of-bounds heap read of approximately 40,728 bytes when computing a layer context array index. An attacker who can influence SVC encoder parameters in a network-facing service could exploit this for information disclosure (heap content leak) or denial of service (segmentation fault from hitting unmapped memory).
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A heap-buffer-overflow read vulnerability was found in libaom, the reference AV1 codec implementation. A missing bounds check in the SVC (Scalable Video Coding) layer ID control function allows setting a spatial_layer_id exceeding the configured number of layers. This causes an out-of-bounds heap read of approximately 40,728 bytes when computing a layer context array index. An attacker who can influence SVC encoder parameters in a network-facing service could exploit this for information disclosure (heap content leak) or denial of service (segmentation fault from hitting unmapped memory).
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π¨ CVE-2026-56211
A remote code execution vulnerability was found in libaom, the reference AV1 codec implementation. Insufficient bounds validation in the AV1 encoder's SVC (Scalable Video Coding) layer ID control allows an attacker to supply crafted video frame pixels that overlap with internal encoder layer context structures. In fork-based video processing services, an attacker can use this to hijack the cyclic refresh map pointer, brute-force the process base address via a crash oracle, and redirect control flow to achieve arbitrary command execution. Exploitation requires the target service to use libaom with SVC encoding enabled and accept attacker-supplied video frames.
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A remote code execution vulnerability was found in libaom, the reference AV1 codec implementation. Insufficient bounds validation in the AV1 encoder's SVC (Scalable Video Coding) layer ID control allows an attacker to supply crafted video frame pixels that overlap with internal encoder layer context structures. In fork-based video processing services, an attacker can use this to hijack the cyclic refresh map pointer, brute-force the process base address via a crash oracle, and redirect control flow to achieve arbitrary command execution. Exploitation requires the target service to use libaom with SVC encoding enabled and accept attacker-supplied video frames.
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π¨ CVE-2026-56208
A heap buffer overflow vulnerability was found in libaom, the reference AV1 codec implementation. A flaw in the AV1 encoder's Look-Ahead Processing (LAP) mode causes the first-pass stats ring buffer wrap-around guard to be bypassed when g_lag_in_frames is set to 1 or higher. This results in a 232-byte out-of-bounds write on every encoded frame after the second, corrupting adjacent heap objects. An attacker who can influence encoder configuration in a transcoding service or WebRTC session could exploit this to cause a denial of service (process crash) or potentially achieve code execution.
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A heap buffer overflow vulnerability was found in libaom, the reference AV1 codec implementation. A flaw in the AV1 encoder's Look-Ahead Processing (LAP) mode causes the first-pass stats ring buffer wrap-around guard to be bypassed when g_lag_in_frames is set to 1 or higher. This results in a 232-byte out-of-bounds write on every encoded frame after the second, corrupting adjacent heap objects. An attacker who can influence encoder configuration in a transcoding service or WebRTC session could exploit this to cause a denial of service (process crash) or potentially achieve code execution.
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π¨ CVE-2026-56209
An arbitrary address write vulnerability was found in libaom, the reference AV1 codec implementation. A missing bounds check in the SVC (Scalable Video Coding) layer ID control function allows an attacker to inject an arbitrary pointer into the cyclic refresh map field via crafted image pixel values. The encoder then writes approximately 1,200 bytes at the attacker-controlled address. This is fully deterministic and does not require a separate information leak. An attacker who can supply frames to a network-facing libaom encoder with SVC enabled could exploit this for denial of service or potential code execution.
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An arbitrary address write vulnerability was found in libaom, the reference AV1 codec implementation. A missing bounds check in the SVC (Scalable Video Coding) layer ID control function allows an attacker to inject an arbitrary pointer into the cyclic refresh map field via crafted image pixel values. The encoder then writes approximately 1,200 bytes at the attacker-controlled address. This is fully deterministic and does not require a separate information leak. An attacker who can supply frames to a network-facing libaom encoder with SVC enabled could exploit this for denial of service or potential code execution.
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